Method and reagent for the treatment of diseases or conditions related to levels of vascular endothelial growth factor receptor

ABSTRACT

The present invention relates to nucleic acid molecules which modulate the synthesis, expression and/or stability of an mRNA encoding one or more receptors of vascular endothelial growth factor.

This application is a continuation of U.S. patent application Ser. No. 09/685,664 filed Oct. 10, 2000, which is a continuation of U.S. patent application Ser. No. 08/584,040 filed Jan. 11, 1996 now U.S. Pat. No. 6,346,395, which claims the benefit of U.S. Provisional Application No. 60/005,974 filed Oct. 26, 1995, all of which are hereby incorporated by reference.

The Sequence Listing file named “MBHB00-876-K SequenceListing.txt” (2,337,188 bytes in size) submitted on Compact Disc-Recordable (CD-R) medium (“010706_(—)1627”) in compliance with 37 C.F.R. §1.52(e) is incorporated herein by reference.”

BACKGROUND OF THE INVENTION

This invention relates to methods and reagents for the treatment of diseases or conditions relating to the levels of expression of vascular endothelial growth factor (VEGF) receptor(s).

The following is a discussion of relevant art, none of which is admitted to be prior art to the present invention.

VEGF, also referred to as vascular permeability factor (VPF) and vasculotropin, is a potent and highly specific mitogen of vascular endothelial cells (for a review see Ferrara, 1993 Trends Cardiovas. Med. 3, 244; Neufeld et al., 1994 Prog. Growth Factor Res. 5, 89). VEGF induced neovascularization is implicated in various pathological conditions such as tumor angiogenesis, proliferative diabetic retinopathy, hypoxia-induced angiogenesis, rheumatoid arthritis, psoriasis, wound healing and others.

VEGF, an endothelial cell-specific mitogen, is a 34-45 kDa glycoprotein with a wide range of activities that include promotion of angiogenesis, enhancement of vascular-permeability and others. VEGF belongs to the platelet-derived growth factor (PDGF) family of growth factors with approximately 18% homology with the A and B chain of PDGF at the amino acid level. Additionally, VEGF contains the eight conserved cysteine residues common to all growth factors belonging to the PDGF family (Neufeld et al., supra). VEGF protein is believed to exist predominantly as disulfide-linked homodimers; monomers of VEGF have been shown to be inactive (Plouet et al., 1989 EMBO J. 8, 3801).

VEGF exerts its influence on vascular endothelial cells by binding to specific high-affinity cell surface receptors. Covalent cross-linking experiments with ¹²⁵I-labeled VEGF protein have led to the identification of three high molecular weight complexes of 225, 195 and 175 kDa presumed to be VEGF and VEGF receptor complexes (Vaisman et al., 1990 J. Biol. Chem. 265, 19461). Based on these studies VEGF-specific receptors of 180, 150 and 130 kDa molecular mass were predicted. In endothelial cells, receptors of 150 and the 130 kDa have been identified. The VEGF receptors belong to the superfamily of receptor tyrosine kinases (RTKs) characterized by a conserved cytoplasmic catalytic kinase domain and a hydrophylic kinase sequence. The extracellular domains of the VEGF receptors consist of seven immunoglobulin-like domains that are thought to be involved in VEGF binding functions.

The two most abundant and high-affinity receptors of VEGF are fit-1 (fms-like tyrosine kinase) cloned by Shibuya et al., 1990 Oncogene 5, 519 and KDR (kinase-insert-domain-containing receptor) cloned by Terman et al., 1991 Oncogene 6, 1677. The murine homolog of KDR, cloned by Mathews et al., 1991, Proc. Natl. Acad. Sci., USA, 88, 9026, shares 85% amino acid homology with KDR and is termed as flk-1 (fetal liver kinase-1). Recently it has been shown that the high-affinity binding of VEGF to its receptors is modulated by cell surface-associated heparin and heparin-like molecules (Gitay-Goren et al., 1992 J. Biol. Chem. 267, 6093).

VEGF expression has been associated with several pathological states such as tumor angiogenesis, several forms of blindness, rheumatoid arthritis, psoriasis and others. Following is a brief summary of evidence supporting the involvement of VEGF in various diseases:

1) Tumor angiogenesis: Increased levels of VEGF gene expression have been reported in vascularized and edema-associated brain tumors (Berkman et al., 1993 J. Clini. Invest. 91, 153). A more direct demostration of the role of VEGF in tumor angiogenesis was demonstrated by Jim Kim et al., 1993 Nature 362,841 wherein, monoclonal antibodies against VEGF were successfully used to inhibit the growth of rhabdomyosarcoma, glioblastoma multiforme cells in nude mice. Similarly, expression of a dominant negative mutated form of the fit-1 VEGF receptor inhibits vascularization induced by human gliobiastoma cells in nude mice (Millauer et al., 1994, Nature 367, 576).

2) Ocular diseses: Aiello et al., 1994 New Engl. J. Med. 331, 1480, showed that the ocular fluid, of a majority of patients suffering from diabetic retinopathy and other retinal disorders, contains a high concentration of VEGF. Miller et al., 1994 Am. J. Pathol. 145, 574, reported elevated levels of VEGF mRNA in patients suffering from retinal ischemia. These observations support a direct role for VEGF in ocular diseases.

3) Psoriasis: Detmar et al., 1994 J. Exp. Med. 180, 1141 reported that VEGF and its receptors were over-expressed in psoriatic skin and psoriatic dermal microvessels, suggesting that VEGF plays a significant role in psoriasis.

4) Rheumatoid arthritis: Immunohistochemistry and in situ hybridization studies on tissues from the joints of patients suffering from rheumatoid arthritis show an increased level of VEGF and its receptors (Fava et al., 1994 J. Exp. Med. 180, 341). Additionally, Koch et al., 1994 J. Immunol. 152, 4149, found that VEGF-specific antibodies were able to significantly reduce the mitogenic activity of synovial tissues from patients suffering from rheumatoid arthritis. These observations support a direct role for VEGF in rheumatoid arthritis.

In addition to the above data on pathological conditions involving excessive angiogenesis, a number of studies have demonstrated that VEGF is both necessary and sufficient for neovascularization. Takashita et al., 1995 J. Clin. Invest. 93, 662, demonstrated that a single injection of VEGF augmented collateral vessel development in a rabbit model of ischemia. VEGF also can induce neovascularization when injected into the cornea. Expression of the VEGF gene in CHO cells is sufficient to confer tumorigenic potential to the cells. Kim et al., supra and Millauer et al., supra used monoclonal antibodies against VEGF or a dominant negative form of flk-1 receptor to inhibit tumor-induced neovascularization.

During development, VEGF and its receptors are associated with regions of new vascular growth (Millauer et al., 1993 Cell 72, 835; Shalaby et al., 1993 J. Clin. Invest. 91, 2235). Furthermore, transgenic mice lacking either of the VEGF receptors are defective in blood vessel formation, infact these mouse do not survive; flk-1 appears to be required for differentiation of endothelial cells, while fit-1 appears to be required at later stages of vessel formation (Shalaby et al., 1995 Nature 376, 62; Fung et al., 1995 Nature 376, 66). Thus, these receptors must be present to properly signal endothelial cells or their precursors to respond to vascularization-promoting stimuli.

All of the conditions listed above, involve extensive vascularization. This hyper-stimulation of endothelial cells may be alleviated by VEGF antagonists. Thus most of the therapeutic efforts for the above conditions have concentrated on finding inhibitors of the VEGF protein.

Kim et al., 1993 Nature 362, 841 have been successful in inhibiting VEGF-induced tumor growth and angiogenesis in nude mice by treating the mice with VEGF-specific monoclonal antibody.

Koch et al., 1994 J. Immunol. 152, 4149 showed that the mitogenic activity of microvascular endothelial cells found in rheumatoid arthritis (RA) synovial tissue explants and the chemotactic property of endothelial cells from RA synovial fluid can be neutralized significantly by treatment with VEGF-specific antibodies.

Ullrich et al., International PCT Publication No. WO 94/11499 and Millauer et al., 1994 Nature 367, 576 used a soluble form of flk-1 receptor (dominant-negative mutant) to prevent VEGF-mediated tumor angiogenesis in immunodeficient mice.

Kendall and Thomas, International PCT Publication No. WO 94/21679 describe the use of naturally occuring or recombinantly-engineered soluble forms of VEGF receptors to inhibit VEGF activity.

Robinson, International PCT Publication No. WO 95/04142 describes the use of antisense oligonucleotides targeted against VEGF RNA to inhibit VEGF expression.

Jellinek et al., 1994 Biochemistry 33, 10450 describe the use of VEGF-specific high-affinity RNA aptamers to inhibit the binding of VEGF to its receptors.

Rockwell and Goldstein, International PCT Publication No. WO 95/21868, describe the use of anti-VEGF receptor monoclonal antibodies to neutralize the the effect of VEGF on endothelial cells.

SUMMARY OF THE INVENTION

The invention features novel nucleic acid-based techniques [e.g., enzymatic nucleic acid molecules (ribozymes), antisense nucleic acids, 2-5A antisense chimeras, triplex DNA, antisense nucleic acids containing RNA cleaving chemical groups (Cook et al., U.S. Pat. No. 5,359,051)] and methods for their use to down regulate or inhibit the expression of receptors of VEGF (VEGF-R).

In a preferred embodiment, the invention features use of one or more of the nucleic acid-based techniques to inhibit the expression of fit-1 and/or flk-1/KDR receptors.

By “inhibit” it is meant that the activity of VEGF-R or level of mRNAs or equivalent RNAs encoding VEGF-R is reduced below that observed in the absence of the nucleic acid. In one embodiment, inhibition with ribozymes preferably is below that level observed in the presence of an enzymatically inactive RNA molecule that is able to bind to the same site on the mRNA, but is unable to cleave that RNA. In another embodiment, inhibition with antisense oligonucleotides is preferably below that level observed in the presence of for example, an oligonucleotide with scrambled sequence or with mismatches.

By “enzymatic nucleic acid molecule” it is meant an RNA molecule which has complementarity in a substrate binding region to a specified gene target, and also has an enzymatic activity which is active to specifically cleave target RNA. That is, the enzymatic RNA molecule is able to intermolecularly cleave RNA and thereby inactivate a target RNA molecule. This complementary regions allow sufficient hybridization of the enzymatic RNA molecule to the target RNA and thus permit cleavage. One hundred percent complementarity is preferred, but complementarity as low as 50-75% may also be useful in this invention. By “equivalent” RNA to VEGF-R is meant to include those naturally occurring RNA molecules in various animals, including human, mice, rats, rabbits, primates and pigs.

By “antisense nucleic acid” it is meant a non-enzymatic nucleic acid molecule that binds to target RNA by means of RNA-RNA or RNA-DNA or RNA-PNA (protein nucleic acid; Egholm et al., 1993 Nature 365, 566) interactions and alters the activity of the target RNA (for a review see Stein and Cheng, 1993 Science 261, 1004).

By “2-5A antisense chimera” it is meant, an antisense oligonucleotide containing a 5′ phosphorylated 2′-5′-linked adenylate residues. These chimeras bind to target RNA in a sequence-specific manner and activate a cellular 2-5A-dependent ribonuclease which, in turn, cleaves the target RNA (Torrence et al., 1993 Proc. Natl. Acad. Sci. USA 90, 1300).

By “triplex DNA” it is meant an oligonucleotide that can bind to a double-stranded DNA in a sequence-specific manner to form a triple-strand helix. Formation of such triple helix structure has been shown to inhibit transcription of the targeted gene (Duval-Valentin et al., 1992 Proc. Natl. Acad. Sci. USA 89, 504).

By “gene” it is meant a nucleic acid that encodes an RNA.

By “complementarity” is meant that a nucleic acid can form hydrogen bond(s) with another RNA sequence by either traditional Watson-Crick or other non-traditional types (for example, Hoogsteen type) of base-paired interactions.

Six basic varieties of naturally-occurring enzymatic RNAs are known presently. Each can catalyze the hydrolysis of RNA phosphodiester bonds in trans (and thus can cleave other RNA molecules) under physiological conditions. Table I summarizes some of the characteristics of these ribozymes. In general, enzymatic nucleic acids act by first binding to a target RNA. Such binding occurs through the target binding portion of a enzymatic nucleic acid which is held in close proximity to an enzymatic portion of the molecule that acts to cleave the target RNA. Thus, the enzymatic nucleic acid first recognizes and then binds a target RNA through complementary base-pairing, and once bound to the correct site, acts enzymatically to cut the target RNA. Strategic cleavage of such a target RNA will destroy its ability to direct synthesis of an encoded protein. After an enzymatic nucleic acid has bound and cleaved its RNA target, it is released from that RNA to search for another target and can repeatedly bind and cleave new targets. Thus, a single ribozyme molecule is able to cleave many molecules of target RNA. In addition, the ribozyme is a highly specific inhibitor of gene expression, with the specificity of inhibition depending not only on the base-pairing mechanism of binding to the target RNA, but also on the mechanism of target RNA cleavage. Single mismatches, or base-substitutions, near the site of cleavage can completely eliminate catalytic activity of a ribozyme.

Ribozymes that cleave the specified sites in VEGF-R mRNAs represent a novel therapeutic approach to treat tumor angiogenesis, ocular diseases, rhuematoid arthritis, psoriasis and others. Applicant indicates that ribozymes are able to inhibit the activity of VEGF-R (specifically fit-1 and flk-1/KDR) and that the catalytic activity of the ribozymes is required for their inhibitory effect. Those of ordinary skill in the art will find that it is clear from the examples described that other ribozymes that cleave VEGF-R mRNAs may be readily designed and are within the invention.

In preferred embodiments of this inventions, the enzymatic nucleic acid molecule is formed in a hammerhead or hairpin motif, but may also be formed in the motif of a hepatitis delta virus, group I intron or RNaseP RNA (in association with an RNA guide sequence) or Neurospora VS RNA. Examples of such hammerhead motifs are described by Rossi et al., 1992, AIDS Research and Human Retroviruses 8, 183, of hairpin motifs by Hampel et al., EP0360257, Hampel and Tritz, 1989 Biochemistry 28, 4929, and Hampel et al., 1990 Nucleic Acids Res. 18, 299, and an example of the hepatitis delta virus motif is described by Perrotta and Been, 1992 Biochemistry 31, 16; of the RNaseP motif by Guerrier-Takada et al., 1983 Cell 35, 849, Neurospora VS RNA ribozyme motif is described by Collins (Saville and Collins, 1990 Cell 61, 685-696; Saville and Collins, 1991 Proc. Natl. Acad. Sci. USA 88, 8826-8830; Collins and Olive, 1993 Biochemistry 32, 2795-2799) and of the Group I intron by Cech et al., U.S. Pat. No. 4,987,071. The specific motifs are not limiting in the invention and those skilled in the art will recognize that all that is important in an enzymatic nucleic acid molecule of this invention is that it has a specific substrate binding site which is complementary to one or more of the target gene RNA regions, and that it have nucleotide sequences within or surrounding that substrate binding site which impart an RNA cleaving activity to the molecule.

In a preferred embodiment the invention provides a method for producing a class of enzymatic cleaving agents which exhibit a high degree of specificity for the RNA of a desired target. The enzymatic nucleic acid molecule is preferably targeted to a highly conserved sequence region of target mRNAs encoding VEGF-R proteins (specifically fit-1 and flk-1/KDR) such that specific treatment of a disease or condition can be provided with either one or several enzymatic nucleic acids. Such enzymatic nucleic acid molecules can be delivered exogenously to specific tissue or cellular targets as required. Alternatively, the ribozymes can be expressed from DNA and/or RNA vectors that are delivered to specific cells.

Synthesis of nucleic acids greater than 100 nucleotides in length is difficult using automated methods, and the therapeutic cost of such molecules is prohibitive. In this invention, small nucleic acid motifs (e.g., antisense oligonucleotides, hammerhead or the hairpin ribozymes) are used for exogenous delivery. The simple structure of these molecules increases the ability of the nucleic acid to invade targeted regions of the mRNA structure. However, these nucleic acid molecules can also be expressed within cells from eukaryotic promoters (e.g., Izant and Weintraub, 1985 Science 229, 345; McGarry and Lindquist, 1986 Proc. Natl. Acad. Sci. USA 83, 399; SullengerScanlon et al., 1991, Proc. Natl. Acad. Sci. USA, 88, 10591-5; Kashani-Sabet et al., 1992 Antisense Res. Dev., 2, 3-15; Dropulic et al., 1992 J. Virol, 66, 1432-41; Weerasinghe et al., 1991 J. Virol, 65, 5531-4; Ojwang et al., 1992 Proc. Natl. Acad. Sci. USA 89, 10802-6; Chen et al., 1992 Nucleic Acids Res., 20, 4581-9; Sarver et al., 1990 Science 247, 1222-1225; Thompson et al., 1995 Nucleic Acids Res. 23, 2259). Those skilled in the art realize that any nucleic acid can be expressed in eukaryotic cells from the appropriate DNA/RNA vector. The activity of such nucleic acids can be augmented by their release from the primary transcript by a ribozyme (Draper et al., PCT WO93/23569, and Sullivan et al., PCT WO94/02595, both hereby incorporated in their totality by reference herein; Ohkawa et al., 1992 Nucleic Acids Svmp. Ser., 27, 15-6; Taira et al., 1991, Nucleic Acids Res., 19, 5125-30; Ventura et al., 1993 Nucleic Acids Res. 21, 3249-55; Chowrira et al., 1994 J. Biol. Chem. 269, 25856).

Such nucleic acid molecules are useful for the prevention of the diseases and onditions discussed above, and any other diseases or conditions that are related to the evels of VEGF-R (specifically fit-1 and flk-1/KDR) in a cell or tissue.

By “related” is meant that the reduction of VEGF-R (specifically fit-1 and flk-1/KDR) RNA levels and thus reduction in the level of the respective protein will relieve, to some extent, the symptoms of the disease or condition.

Ribozymes are added directly, or can be complexed with cationic lipids, packaged within liposomes, or otherwise delivered to target cells or tissues. The nucleic acid or nucleic acid complexes can be locally administered to relevant tissues ex vivo, or in vivo through injection, infusion pump or stent, with or without their incorporation in biopolymers. In preferred embodiments, the ribozymes have binding arms which are complementary to the sequences in Tables II to IX. Examples of such ribozymes also are shown in Tables II to IX. Examples of such ribozymes consist essentially of sequences defined in these Tables. By “consists essentially of” is meant that the active ribozyme contains an enzymatic center or core equivalent to those in the examples, and binding arms able to bind mRNA such that cleavage at the target site occurs. Other sequences may be present which do not interfere with such cleavage.

In another aspect of the invention, ribozymes that cleave target RNA molecules and inhibit VEGF-R (specifically fit-1 and flk-1/KDR) activity are expressed from transcription units inserted into DNA or RNA vectors. The recombinant vectors are preferably DNA plasmids or viral vectors. Ribozyme expressing viral vectors could be constructed based on, but not limited to, adeno-associated virus, retrovirus, adenovirus, or alphavirus. Preferably, the recombinant vectors capable of expressing the ribozymes are delivered as described above, and persist in target cells. Alternatively, viral vectors may be used that provide for transient expression of ribozymes. Such vectors might be repeatedly administered as necessary. Once expressed, the ribozymes cleave the target mRNA. Delivery of ribozyme expressing vectors could be systemic, such as by intravenous or intramuscular administration, by administration to target cells ex-planted from the patient followed by reintroduction into the patient, or by any other means that would allow for introduction into the desired target cell.

By “vectors” is meant any nucleic acid- and/or viral-based technique used to deliver a desired nucleic acid.

Other features and advantages of the invention will be apparent from the following description of the preferred embodiments thereof, and from the claims.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

First the drawings will be described briefly.

DRAWINGS

FIG. 1 is a diagrammatic representation of the hammerhead ribozyme domain known in the art. Stem II can be ≧2 base-pair long.

FIG. 2 a is a diagrammatic representation of the hammerhead ribozyme domain known in the art; FIG. 2 b is a diagrammatic representation of the hammerhead ribozyme as divided by Uhlenbeck (1987, Nature, 327, 596-600) into a substrate and enzyme portion; FIG. 2 c is a similar diagram showing the hammerhead divided by Haseloff and Gerlach (1988, Nature, 334, 585-591) into two portions; and FIG. 2 d is a similar diagram showing the hammerhead divided by Jeffries and Symons (1989, Nucl. Acids. Res., 17, 1371-1371) into two portions.

FIG. 3 is a diagramatic representation of the general structure of a hairpin ribozyme. Helix 2 (H₂) is provided with a least 4 base pairs (i.e., n is 1, 2, 3 or 4) and helix 5 can be optionally provided of length 2 or more bases (preferably 3-20 bases, i.e., m is from 1-20 or more). Helix 2 and helix 5 may be covalently linked by one or more bases (i.e., r is ≧1 base). Helix 1, 4 or 5 may also be extended by 2 or more base pairs (e.g., 4-20 base pairs) to stabilize the ribozyme structure, and preferably is a protein binding site. In each instance, each N and N′ independently is any normal or modified base and each dash represents a potential base-pairing interaction. These nucleotides may be modified at the sugar, base or phosphate. Complete base-pairing is not required in the helices, but is preferred. Helix 1 and 4 can be of any size (i.e., o and p is each independently from 0 to any number, e.g., 20) as long as some base-pairing is maintained. Essential bases are shown as specific bases in the structure, but those in the art will recognize that one or more may be modified chemically (abasic, base, sugar and/or phosphate modifications) or replaced with another base without significant effect. Helix 4 can be formed from two separate molecules, i.e., without a connecting loop. The connecting loop when present may be a ribonucleotide with or without modifications to its base, sugar or phosphate. “q” is ≧2 bases. The connecting loop can also be replaced with a non-nucleotide linker molecule. H refers to bases A, U, or C. Y refers to pyrimidine bases. “______” refers to a covalent bond.

FIG. 4 is a representation of the general structure of the hepatitis delta virus ribozyme domain known in the art.

FIG. 5 is a representation of the general structure of the VS RNA ribozyme domain.

FIG. 6 is a schematic representation of an RNAseH accessibility assay. Specifically, the left side of FIG. 6 is a diagram of complementary DNA oligonucleotides bound to accessible sites on the target RNA. Complementary DNA oligonucleotides are represented by broad lines labeled A, B, and C. Target RNA is represented by the thin, twisted line. The right side of FIG. 6 is a schematic of a gel separation of uncut target RNA from a cleaved target RNA. Detection of target RNA is by autoradiography of body-labeled, T7 transcript. The bands common to each lane represent uncleaved target RNA; the bands unique to each lane represent the cleaved products.

FIG. 7 shows the effect of hammerhead ribozymes targeted against fit-1 receptor on the binding of VEGF to the surface of human microvascular endothelial cells. Sequences of the ribozymes used are shown in Table II; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions (see FIG. 11); U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose. The results of two separate experiments are shown as separate bars for each set. Each bar represents the average of triplicate samples. The standard deviation is shown with error bars. For the fit-1 data, 500 nM ribozyme (3:1 charge ratio with LipofectAMINE®) was used. Control 1-10 is the control for ribozymes 307-2797, control 11-20 is the control for ribozymes 3008-5585. The Control 1-10 and Control 11-20 represent the treatment of cells with LipofectAMINE® alone without any ribozymes.

FIG. 8 shows the effect of hammerhead ribozymes targeted against KDR receptor on the binding of VEGF to KDR on the surface of human microvascular endothelial cells. Sequences of the ribozymes used are shown in Table IV; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions (see FIG. 11); U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose. The Control 1-10 and Control 11-20 represent the treatment of cells with LipofectAMINE® alone without any ribozymes. Irrel. RZ, is a control experiment wherein the cells are treated with a non-KDR-targeted ribozyme complexed with Lipofectamine®. 200 nM ribozyme (3:1 charge ratio with LipofectAMINE®) was used. In addition to the KDR-targeted ribozymes, the effect on VEGF binding of a ribozyme targeted to an irrelevant mRNA (irrel. RZ) is also shown. Because the affinity of KDR for VEGF is about 10-fold lower than the affinity of fit-1 for VEGF, a higher concentration of VEGF was used in the binding assay.

FIG. 9 shows the specificity of hammerhead ribozymes targeted against fit-1 receptor. Inhibition of the binding of VEGF, urokinase plasminogen activator (UPA) and fibroblast growth factor (FGF) to their corresponding receptors as a function of anti-FLT ribozymes is shown. The sequence and description of the ribozymes used are as described under FIG. 7 above. The average of triplicate samples is given; percent inhibition as calculated below.

FIG. 10 shows the inhibition of the proliferation of Human aortic endothelial cells (HAEC) mediated by phosphorothioate antisense oligodeoxynucleotides targeted against human KDR receptor RNA. Cell proliferation (O.D. 490) as a function of antisense oligodeoxynucleotide concentration is shown. KDR 21AS represents a 21 nt phosphorothioate antisense oligodeoxynucleotide targeted against KDR RNA. KDR 21 Scram represents a 21 nt phosphorothioate oligodeoxynucleotide having a scrambled sequence. LF represents the lipid carrier Lipofectin.

FIG. 11 shows in vitro cleavage of fit-1 RNA by hammerhead ribozymes. A) diagrammatic representation of hammerhead ribozymes targeted against fit-1 RNA. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). 1358 HH-A and 4229 HH-A contain 3 base-paired stem II region. 1358 HH-B and 4229 HH-B contain 4 base-paired stem II region. B) and C) shows in vitro cleavage kinetics of HH ribozymes targeted against sites 1358 and 4229 within the fit-1 RNA.

FIG. 12 shows inhibition of human microvascular endothelial cell proliferation mediated by anti-fit-1 hammerhead ribozymes. A) Diagrammatic representation of hammerhead (HH) ribozymes targeted against sites 1358 and 4229 within the the fit-1 RNA. B) Graphical representation of the inhibition of cell proliferation mediated by 1358HH and 4229HH ribozymes.

FIG. 13 shows inhibition of human microvascular endothelial cell proliferation mediated by anti-KDR hammerhead ribozymes. The figure is a graphical representation of the inhibition of cell proliferation mediated by hammerhead ribozymes targeted against sites 527, 730, 3702 and 3950 within the KDR RNA. Irrelevant HH RZ is a hammerhead ribozyme targeted to an irrelevant target. All of these ribozymes, including the Irrelevant HH RZ, were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ termini contain phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (3′-1H).

FIG. 14 shows in vitro cleavage of KDR RNA by hammerhead ribozymes. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-Omethyl substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). 726 HH and 527 HH contain 4 base-paired stem II region. Percentin vitro cleavage kinetics as a function of time of HH ribozymes targeted against sites 527 and 726 within the KDR RNA is shown.

FIG. 15 shows in vitro cleavage of KDR RNA by hammerhead ribozymes. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). 3702 HH and 3950 HH contain 4 base-paired stem II region. Percentin vitro cleavage kinetics as a function of time of HH ribozymes targeted against sites 3702 and 3950 within the KDR RNA is shown.

FIG. 16 shows in vitro cleavage of RNA by hammerhead ribozymes that are targeted to sites that are conserved between fit-1 and KDR RNA. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). FLT/KDR-1 HH ribozyme was synthesized with either a 4 base-paired or a 3 base-paired stem II region. FLT/KDR-1HH can cleave site 3388 within fit-1 RNA and site 3151 within KDR RNA. Percentin vitro cleavage kinetics as a function of time of HH ribozymes targeted against sites 3702 and 3950 within the KDR RNA is shown.

FIG. 17 shows inhibition of human microvascular endothelial cell proliferation mediated by anti-KDR and anti-fit-1 hammerhead ribozymes. The figure is a graphical representation of the inhibition of cell proliferation mediated by hammerhead ribozymes targeted against sites KDR sites-527, 726 or 3950 or fit-1 site 4229. The figure also shows enhanced inhibition of cell proliferation by a combination of fit-1 and KDR hammerhead ribozymes. 4229+527, indicates the treatment of cells with both the fit 4229 and the KDR 527 ribozymes. 4229+726, indicates the treatment of cells with both the fit 4229 and the KDR 726 ribozymes. 4229+3950, indicates the treatment of cells with both the fit 4229 and the KDR 3950 ribozymes. VEGF−, indicates the basal level of cell proliferation in the absence of VEGF. A, indicates catalytically active ribozyme; I, indicates catalytically inactive ribozyme. All of these ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ termini contain phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (3′-1H).

FIG. 18 shows the inhibition of VEGF-induced angiogenesis in rat cornea mediated by anti-fit-1 hammerhead ribozyme. All of these ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 position contains 2′-C-allyl modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ termini contain phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (3′-1H). A decrease in the Surface Area corresponds to a reduction in angiogenesis. VEGF alone, corresponds to treatment of the cornea with VEGF and no ribozymes. Vehicle alone, corresponds to the treatment of the cornea with the carrier alone and no VEGF. This control gives a basal level of Surface Area. Active 4229 HH, corresponds to the treatment of cornea with the fit-1 4229 HH ribozyme in the absence of any VEGF. This control also gives a basal level of Surface Area. Active 4229 HH+VEGF, corresponds to the co-treatment of cornea with the fit-1 4229 HH ribozyme and VEGF. Inactive 4229 HH+VEGF, corresponds to the co-treatment of cornea with a catalytically inactive version of 4229 HH ribozyme and VEGF.

Ribozymes

Ribozymes of this invention block to some extent VEGF-R (specifically fit-1 and flk-1/KDR) production and can be used to treat disease or diagnose such disease. Ribozymes will be delivered to cells in culture, to cells or tissues in animal models of angiogenesis and/or RA and to human cells or tissues ex vivo or in vivo. Ribozyme cleavage of VEGF-R RNAs (specifically RNAs that encode fit-1 and flk-1/KDR) in these systems may alleviate disease symptoms.

Target Sites

Targets for useful ribozymes can be determined as disclosed in Draper et al., International PCT Publication No. WO 95/13380, and hereby incorporated by reference herein in totality. Other examples include the following PCT applications which concern inactivation of expression of disease-related genes: WO 95/23225, WO 95/13380, WO 94/02595, incorporated by reference herein. Rather than repeat the guidance provided in those documents here, below are provided specific examples of such methods, not limiting to those in the art. Ribozymes to such targets are designed as described in those applications and synthesized to be tested in vitro and in vivo, as also described.

The sequence of human and mouse fit-1, KDR and/or flk-1 mRNAs were screened for optimal ribozyme target sites using a computer folding algorithm. Hammerhead or hairpin ribozyme cleavage sites were identified. These sites are shown in Tables II to IX (all sequences are 5′ to 3′ in the tables; X can be any base-paired sequence, the actual sequence is not relevant here). The nucleotide base position is noted in the Tables as that site to be cleaved by the designated type of ribozyme. While mouse and human sequences can be screened and ribozymes thereafter designed, the human targeted sequences are of most utility. However, as discussed in Stinchcomb et al., “Method and Composition for Treatment of Restenosis and Cancer Using Ribozymes,” filed May 18, 1994, U.S. Ser. No. 08/245,466, mouse targeted ribozymes may be useful to test efficacy of action of the ribozyme prior to testing in humans. The nucleotide base position is noted in the Tables as that site to be cleaved by the designated type of ribozyme.

Hammerhead or hairpin ribozymes were designed that could bind and cleave target RNA in a sequence-specific manner. The ribozymes were individually analyzed by computer folding (Jaeger et al., 1989 Proc. Natl. Acad. Sci. USA, 86, 7706) to assess whether the ribozyme sequences fold into the appropriate secondary structure. Those ribozymes with unfavorable intramolecular interactions between the binding arms and the catalytic core were eliminated from consideration. Varying binding arm lengths can be chosen to optimize activity.

Referring to FIG. 6, mRNA is screened for accessible cleavage sites by the method described generally in Draper et al., PCT WO93/23569, hereby incorporated by reference herein. Briefly, DNA oligonucleotides complementary to potential hammerhead or hairpin ribozyme cleavage sites were synthesized. A polymerase chain reaction is used to generate substrates for T7 RNA polymerase transcription from human and mouse fit-1, KDR and/or flk-1 cDNA clones. Labeled RNA transcripts are synthesized in vitro from the templates. The oligonucleotides and the labeled transcripts were annealed, RNAseH was added and the mixtures were incubated for the designated times at 37° C. Reactions are stopped and RNA separated on sequencing polyacrylamide gels. The percentage of the substrate cleaved is determined by autoradiographic quantitation using a Phosphorlmaging system. From these data, hammerhead or hairpin ribozyme sites are chosen as the most accessible.

Ribozymes of the hammerhead or hairpin motif were designed to anneal to various sites in the mRNA message. The binding arms are complementary to the target site sequences described above. The ribozymes were chemically synthesized. The method of synthesis used follows the procedure for normal RNA synthesis as described below and in Usman et al., 1987 J. Am. Chem. Soc., 109, 7845; Scaringe et al., 1990 Nucleic Acids Res., 18, 5433; and Wincott et al., 1995 Nucleic Acids Res. 23, 2677-2684 and make use of common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5′-end, and phosphoramidites at the 3′-end. Small scale synthesis were conducted on a 394 Applied Biosystems, Inc. synthesizer using a modified 2.5 pmol scale protocol with a 5 min coupling step for alkylsilyl protected nucleotides and 2.5 min coupling step for 2′-O-methylated nucleotides. Table XI outlines the amounts, and the contact times, of the reagents used in the synthesis cycle. A 6.5-fold excess (163 μL of 0.1 M=16.3 pmol) of phosphoramidite and a 24-fold excess of S-ethyl tetrazole (238 μL of 0.25 M=59.5 pmol) relative to polymer-bound 5′-hydroxyl was used in each coupling cycle. Average coupling yields on the 394 Applied Biosystems, Inc. synthesizer, determined by colorimetric quantitation of the trityl fractions, were 97.5-99%. Other oligonucleotide synthesis reagents for the 394 Applied Biosystems, Inc. synthesizer: detritylation solution was 2% TCA in methylene chloride (ABI); capping was performed with 16% N-methyl imidazole in THF (ABI) and 10% acetic anhydride/10% 2,6-lutidine in THF (ABI); oxidation solution was 16.9 mM 12, 49 mM pyridine, 9% water in THF (Millipore). B & J Synthesis Grade acetonitrile was used directly from the reagent bottle. S-Ethyl tetrazole solution (0.25 M in acetonitrile) was made up from the solid obtained from American International Chemical, Inc.

Deprotection of the RNA was performed as follows. The polymer-bound oligoribonucleotide, trityl-off, was transferred from the synthesis column to a 4 mL glass screw top vial and suspended in a solution of methylamine (MA) at 65° C. for 10 min. After cooling to −20° C., the supernatant was removed from the polymer support. The support was washed three times with 1.0 mL of EtOH:MeCN:H₂O/3:1:1, vortexed and the supernatant was then added to the first supernatant. The combined supernatants, containing the oligoribonucleotide, were dried to a white powder.

The base deprotected oligoribonucleotide was resuspended in anhydrous TEA.HF/NMP solution (250 μL of a solution of 1.5 mL N-methyl-pyrrolidinone, 750 μL TEA and 1.0 mL TEAe3HF to provide a 1.4 M HF concentration) and heated to 65° C. for 1.5 h. The resulting, fully deprotected, oligomer was quenched with 50 mM TEAB (9 mL) prior to anion exchange desalting.

For anion exchange desalting of the deprotected oligomer, the TEAB solution was loaded onto a Qiagen 500® anion exchange cartridge (Qiagen Inc.) that was prewashed with 50 mM TEAB (10 mL). After washing the loaded cartridge with 50 mM TEAB (10 mL), the RNA was eluted with 2 M TEAB (10 mL) and dried to a white powder.

Inactive hammerhead ribozymes were synthesized by substituting a U for G5 and a U for A14 (numbering from Hertel, K. J., et al., 1992, Nucleic Acids Res., 20, 3252).

The average stepwise coupling yields were >98% (Wincott et al., 1995 Nucleic Acids Res. 23, 2677-2684).

Hairpin ribozymes are synthesized in two parts and annealed to reconstruct the active ribozyme (Chowrira and Burke, 1992 Nucleic Acids Res., 20, 2835-2840). Ribozymes are also synthesized from DNA templates using bacteriophage T7 RNA polymerase (Milligan and Uhlenbeck, 1989, Methods Enzymol. 180, 51).

All ribozymes are modified extensively to enhance stability by modification with nuclease resistant groups, for example, 2′-amino, 2′-C-allyl, 2′-flouro, 2′-O-methyl, 2′-H (for a review see Usman and Cedergren, 1992 TIBS 17, 34; Usman et al., 1994 Nucleic Acids Symp. Ser. 31, 163). Ribozymes are purified by gel electrophoresis using general methods or are purified by high pressure liquid chromatography (HPLC; See Usman et al., Synthesis, deprotection, analysis and purification of RNA and ribozymes, filed May 18, 1994, U.S. Ser. No. 08/245,736 Wincott et al., Supra, the totality of which is hereby incorporated herein by reference) and are resuspended in water.

The sequences of the ribozymes that are chemically synthesized, useful in this study, are shown in Tables II to IX. Those in the art will recognize that these sequences are representative only of many more such sequences where the enzymatic portion of the ribozyme (all but the binding arms) is altered to affect activity. Stem-loop IV sequence of hairpin ribozymes listed in for example Table III (5′-CACGUUGUG-3′) can be altered (substitution, deletion, and/or insertion) to contain any sequence, provided a minimum of two base-paired stem structure can form. The sequences listed in Tables II to IX may be formed of ribonucleotides or other nucleotides or non-nucleotides. Such ribozymes are equivalent to the ribozymes described specifically in the Tables.

Optimizing Ribozyme Activity

Ribozyme activity can be optimized as described by Stinchcomb et al., supra. The details will not be repeated here, but include altering the length of the ribozyme binding arms (stems I and III, see FIG. 2 c), or chemically synthesizing ribozymes with modifications that prevent their degradation by serum ribonucleases (see e.g., Eckstein et al., International Publication No. WO 92/07065; Perrault et al., 1990 Nature 344, 565; Pieken et al., 1991 Science 253, 314; Usman and Cedergren, 1992 Trends in Biochem. Sci. 17, 334; Usman et al., International Publication No. WO 93/15187; Rossi et al., International Publication No. WO 91/03162; Beigelman et al., 1995 J. Biol. Chem. in press; as well as Sproat, U.S. Pat. No. 5,334,711 which describe various chemical modifications that can be made to the sugar moieties of enzymatic RNA molecules). Modifications which enhance their efficacy in cells, and removal of stem II bases to shorten RNA synthesis times and reduce chemical requirements are desired. (All these publications are hereby incorporated by reference herein).

Sullivan, et al., supra, describes the general methods for delivery of enzymatic RNA molecules. Ribozymes may be administered to cells by a variety of methods known to those familiar to the art, including, but not restricted to, encapsulation in liposomes, by iontophoresis, or by incorporation into other vehicles, such as hydrogels, cyclodextrins, biodegradable nanocapsules, and bioadhesive microspheres. For some indications, ribozymes may be directly delivered ex vivo to cells or tissues with or without the aforementioned vehicles. Alternatively, the RNA/vehicle combination is locally delivered by direct injection or by use of a catheter, infusion pump or stent. Other routes of delivery include, but are not limited to, intravascular, intramuscular, subcutaneous or joint injection, aerosol inhalation, oral (tablet or pill form), topical, systemic, ocular, intraperitoneal and/or intrathecal delivery. More detailed descriptions of ribozyme delivery and administration are provided in Sullivan et al., supra and Draper et al., supra which have been incorporated by reference herein.

Another means of accumulating high concentrations of a ribozyme(s) within cells is to incorporate the ribozyme-encoding sequences into a DNA or RNA expression vector. Transcription of the ribozyme sequences are driven from a promoter for eukaryotic RNA polymerase I (pol I), RNA polymerase II (pol II), or RNA polymerase III (pol III). Transcripts from pol II or pol III promoters will be expressed at high levels in all cells; the levels of a given pol II promoter in a given cell type will depend on the nature of the gene regulatory sequences (enhancers, silencers, etc.) present nearby. Prokaryotic RNA polymerase promoters are also used, providing that the prokaryotic RNA polymerase enzyme is expressed in the appropriate cells (Elroy-Stein and Moss, 1990 Proc. Natl. Acad. Sci. USA, 87, 6743-7; Gao and Huang 1993 Nucleic Acids Res., 21, 2867-72; Lieber et al., 1993 Methods Enzymol., 217, 47-66; Zhou et al., 1990 Mol. Cell. Biol., 10, 4529-37; Thompson et al., 1995 supra). Several investigators have demonstrated that ribozymes or antisese expressed from such promoters can function in mammalian cells (e.g. Kashani-Sabet et al., 1992 Antisense Res. Dev., 2, 3-15; Ojwang et al., 1992 Proc. Natl. Acad. Sci. USA, 89, 10802-6; Chen et al., 1992 Nucleic Acids Res., 20, 4581-9; Yu et al., 1993 Proc. Natl. Acad. Sci. USA, 90, 6340-4; L'Huillier et al., 1992 EMBO J. 11, 4411-8; Lisziewicz et al., 1993 Proc. Natl. Acad. Sci. U.S.A., 90, 8000-4; Thompson et al., 1995 Nucleic Acids Res. 23, 2259). The above ribozyme transcription units can be incorporated into a variety of vectors for introduction into mammalian cells, including but not restricted to, plasmid DNA vectors, viral DNA vectors (such as adenovirus or adeno-associated virus vectors), or viral RNA vectors (such as retroviral or alphavirus vectors).

In a preferred embodiment of the invention, a transcription unit expressing a ribozyme that cleaves RNAs that encode fit-1, KDR and/or flk-1 are inserted into a plasmid DNA vector or an adenovirus or adeno-associated virus DNA viral vector or a retroviral RNA vector. Viral vectors have been used to transfer genes and lead to either transient or long term gene expression (Zabner et al., 1993 Cell 75, 207; Carter, 1992 Curr. OPi. Biotech. 3, 533). The adenovirus, MV or retroviral vector is delivered as recombinant viral particles. The DNA may be delivered alone or complexed with vehicles (as described for RNA above). The recombinant adenovirus or MV or retroviral particles are locally administered to the site of treatment, e.g., through incubation or inhalation in vivo or by direct application to cells or tissues ex vivo. Retroviral vectors have also been used to express ribozymes in mammalian cells (Ojwang et al., 1992 supra; Thompson et al., 1995 supra).

fit-1, KDR and/or flk-1 are attractive nucleic acid-based therapeutic targets by several criteria. The interaction between VEGF and VEGF-R is well-established. Efficacy can be tested in well-defined and predictive animal models. Finally, the disease conditions are serious and current therapies are inadequate. Whereas protein-based therapies would inhibit VEGF activity nucleic acid-based therapy provides a direct and elegant approach to directly modulate fit-1, KDR and/or flk-1 expression.

Because fit-1 and KDR mRNAs are highly homologous in certain regions, some ribozyme target sites are also homologous (see Table X). In this case, a single ribozyme will target both fit-1 and KDR mRNAs. At partially homologous sites, a single ribozyme can sometimes be designed to accomodate a site on both mRNAs by including G/U basepairing. For example, if there is a G present in a ribozyme target site in KDR mRNA at the same position there is an A in the fit-1 ribozyme target site, the ribozyme can be synthesized with a U at the complementary position and it will bind both to sites. The advantage of one ribozyme that targets both VEGF-R mRNAs is clear, especially in cases where both VEGF receptors may contribute to the progression of angiogenesis in the disease state.

“Angiogenesis” refers to formation of new blood vessels which is an essential process in reproduction, development and wound repair. “Tumor angiogenesis” refers to the induction of the growth of blood vessels from surrounding tissue into a solid tumor. Tumor growth and tumor metastasis are dependent on angiogenesis (for a review see Folkman, 1985 supra; Folkman 1990 J. Natl. Cancer Inst., 82, 4; Folkman and Shing, 1992 J. Biol. Chem. 267, 10931).

Angiogenesis plays an important role in other diseases such as arthritis wherein new blood vessels have been shown to invade the joints and degrade cartilage (Folkman and Shing, supra).

“Retinopathy” refers to inflammation of the retina and/or degenerative condition of the retina which may lead to occlusion of the retina and eventual blindness. In “diabetic retinopathy” angiogenesis causes the capillaries in the retina to invade the vitreous resulting in bleeding and blindness which is also seen in neonatal retinopathy (for a review see Folkman, 1985 supra; Folkman 1990 supra; Folkman and Shing, 1992 supra).

EXAMPLE 1 fit-1. KDR and/or flk-1 ribozymes

By engineering ribozyme motifs applicant has designed several ribozymes directed against fit-1, KDR and/or flk-1 encoded mRNA sequences. These ribozymes were synthesized with modifications that improve their nuclease resistance (Beigelman et al., 1995 J. Biol. Chem. 270, 25702) and enhance their activity in cells. The ability of ribozymes to cleave target sequences in vitro was evaluated essentially as described in Thompson et al., PCT Publication No. WO 93/23057; Draper et al., PCT Publication No. WO 95/04818.

EXAMPLE 2 Effect of ribozymes on the Binding of VEGF to fit-1. KDR and/or flk-1 Receptors

Several common human cell lines are available that express endogenous fit-1, KDR and/or flk-1. fit-1, KDR and/or flk-1 can be detected easily with monoclonal antibodies. Use of appropriate fluorescent reagents and fluorescence-activated cell-sorting (FACS) will permit direct quantitation of surface fit-1, KDR and/or flk-1 on a cell-by-cell basis. Active ribozymes are expected to directly reduce fit-1, KDR and/or flk-1 expression and thereby reduce VEGF binding to the cells. In this example, human umbelical cord microvascular endothelial cells were used.

Cell Preparation:

Plates are coated with 1.5% gelatin and allowed to stand for one hour. Cells (e.g., microvascular endothelial cells derived from human umbilical cord vein) are plated at 20,000 cells/well (24 well plate) in 200 μl growth media and incubated overnight (−1 doubling) to yield ˜40,000 cells (75-80% confluent).

Ribozyme Treatment:

Media is removed from cells and the cells are washed two times with 300 μl 1× PBS: Ca²⁺: Mg²⁺ mixture. A complex of 200-500 nM ribozyme and LipofectAMINE® (3:1 lipid:phosphate ratio) in 200 μl OptiMEM® (5% FBS) was added to the cells. The cells are incubated for 6 hr (equivalent to 2-3 VEGF-R turnovers).

¹²⁵I VEGF Binding Assay:

The assay is carried out on ice to inhibit internalization of VEGF during the experiment. The media containing the ribozyme is removed from the cells and the cells are washed twice with with 300 μl 1×PBS: Ca²⁺: Mg²⁺ mixture containing 1% BSA. Appropriate ¹²⁵I VEGF solution (100,000 cpm/well, +/−10× cold 1×PBS, 1% BSA) was applied to the cells. The cells are incubated on ice for 1 h. ¹²⁵I VEGF-containing solution is removed and the cells are washed three times with with 300 μl 1×PBS: Ca²⁺: Mg²⁺ mixture containing 1% BSA. To each well 300 μl of 100 mM Tris-HCl, pH 8.0, 0.5% Triton X-100 was added and the the mixture was incubated for 2 min. The ¹²⁵I VEGF-binding was quantitated using standard scintillation counting techniques.

Percent inhibition was calculated as follows: ${{Percent}\quad{Inhibition}} = {\frac{{cpm}^{125}❘{{VEGF}\quad{bound}\quad{by}\quad{the}\quad{ribozyme}\text{-}{treated}\quad{samples}}}{{cpm}^{125}❘{{VEGF}\quad{bound}\quad{by}\quad{the}\quad{Control}\quad{sample}}} \times 100}$

EXAMPLE 3 Effect of Hammerhead Ribozymes Targeted Against fit-1 receptor on the Binding of VEGF

Hammerhead ribozymes targeted to twenty sites within fit-1 RNA were synthesized as described above. Sequence of the ribozymes used are shown in Table II; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic ribose.

Referring to FIG. 7, the effect of hammerhead ribozymes targeted against fit-1 receptor on the binding of VEGF to fit-1 on the surface of human microvascular endothelial cells is shown. The majority of the ribozymes tested were able to inhibit the expression of fit-1 and thereby were able to inhibit the binding of VEGF. In order to determine the specificity of ribozymes targeted against fit-1 RNA, the effect of five anti-fit-1 ribozymes on the binding of VEGF, UPA (urokinase plasminogen activator) and FGF (fibroblast growth factor) to their corresponding receptors were assayed. As shown in FIG. 9, there was significant inhibition of VEGF binding to its receptors on cells treated with anti-fit-1 ribozymes. There was no specific inhibition of the binding of UPA and FGF to their corresponding receptors. These data strongly suggest that anti-fit-1 ribozymes specifically cleave fit-1 RNA and not RNAs encoding the receptors for UPA and FGF, resulting in the inhibition of fit-1 receptor expression on the surface of the cells. Thus the ribozymes are responsible for the inhibition of VEGF binding but not the binding of UPA and FGF.

EXAMPLE 4 Effect of Hammerhead Ribozymes Targeted Against KDR Receptor on the Binding of VEGF

Hammerhead ribozymes targeted to twenty one sites within KDR RNA were synthesized as described above. Sequence of the ribozymes used are shown in Table IV; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose.

Referring to FIG. 8, the effect of hammerhead ribozymes targeted against KDR receptor on the binding of VEGF to KDR on the surface of human microvascular endothelial cells is shown. A majority of the ribozymes tested were able to inhibit the expression of KDR and thereby were able to inhibit the binding of VEGF. As a control, the cells were treated with a ribozyme that is not targeted towards KDR RNA (irrel. RZ); there was no specific inhibition of VEGF binding. The results from this control experiment strongly suggest that the inhibition of VEGF binding observed with anti-KDR ribozymes is a ribozyme-mediated inhibition.

EXAMPLE 5 Effect of Ribozymes Targeted Against VEGF Receptors on Cell Proliferation

Cell Preparation:

24-well plates are coated with 1.5% gelatin (porcine skin 300 bloom). After 1 hr, excess gelatin is washed off of the plate. Microvascular endothelial cells are plated at 5,000 cells/well (24 well plate) in 200 p I growth media. The cells are allowed to grow for ˜18 hr (˜1 doubling) to yield ˜10,000 cells (25-30% confluent).

Ribozyme Treatment:

Media is removed from the cells, and the cells are washed two times with 300 p I 1×PBS: Ca²⁺: Mg²⁺ mixture.

For anti-fit-1 HH ribozyme experiment (FIG. 12) a complex of 500 nM ribozyme; 15 μM LFA (3:1 lipid:phosphate ratio) in 200 μl OptiMEM (5% FCS) media was added to the cells. Incubation of cells is carried out for 6 hr (equivalent to 2-3 VEGF receptor turnovers).

For anti-KDR HH ribozyme experiment (FIG. 13) a complex of 200 nM ribozyme; 5.25 μM LFA (3:1 lipid:phosphate ratio) in 200 μl OptiMEM (5% FCS) media was added to the cells. Incubation of cells is carried out for 3 hr.

Proliferation:

After three or six hours, the media is removed from the cells and the cells are washed with 300 μl 1×PBS: Ca²⁺: Mg²⁺ mixture. Maintenance media (contains dialyzed 10% FBS)+/−VEGF or basic FGF at 10 ng/ml is added to the cells. The cells are incubated for 48 or 72 h. The cells are trypsinized and counted (Coulter counter). Trypan blue is added on one well of each treatment as control.

As shown in FIG. 12B, VEGF and basic FGF can stimulate human microvascular endothelial cell proliferation. However, treatment of cells with 1358 HH or 4229 HH ribozymes, targeted against fit-1 mRNA, results in a significant decrease in the ability of VEGF to stimulate endothelial cell proliferation. These ribozymes do not inhibit the FGF-mediated stimulation of endothelial cell proliferation.

Human microvascular endothalial cells were also treated with hammerhead ribozymes targeted against sites 527, 730, 3702 or 3950 within the KDR mRNA. As shown in FIG. 13, all four ribozymes caused significant inhibition of VEGF-mediated induction of cell proliferation. No significant inhibition of cell proliferation was observed when the cells were treated with a hammerhead ribozyme targeted to an irrelevant RNA. Additionally, none of the ribozymes inhibited FGF-mediated stimulation of cell proliferation.

These results strongly suggest that hammerhead ribozymes targeted against either fit-1 or KDR mRNA can specifically inhibit VEGF-mediated induction of endothelial cell proliferation.

EXAMPLE 6 Effect of Antisense Oligonucleotides Targeted Against VEGF Receptors on Cell Proliferation (Colorimetric Assay)

Following are some of the reagents used in the proliferation assay:

Cells: Human aortic endothelial cells (HAEC) from Clonetics®. Cells at early passage are preferably used.

Uptake Medium: EBM (from Clonetics®); 1% L-Glutamine; 20 mM Hepes; No serum; No antibiotics.

Growth Medium: EGM (from Clonetics®); FBS to 20%; 1% L-Glutamine; 20 mM Hepes.

Cell Plating: 96-well tissue culture plates are coated with 0.2% gelatin (50 μl/well). The gelatin is incubated in the wells at room temperature for 15-30 minutes. The gelatin is removed by aspiration and the wells are washed with PBS:Ca²⁺: Mg²⁺ mixture. PBS mixture is left in the wells until cells are ready to be added. HAEC cells were detached by trypsin treatment and resuspended at 1.25×10⁴/ml in growth medium. PBS is removed from plates and 200 μl of cells (i.e. 2.5×10³ cells/well) are added to each well. The cells are allowed to grow for 48 hours before the proliferation assay.

Assay: Growth medium is removed from the wells. The cells are washed twice with PBS:Ca²⁺: Mg²⁺ mixture without antibiotics. A formulation of lipid/antisense oligonucleotide (antisense oligonucleotide is used here as a non-limiting example) complex is added to each well (100 μl/well) in uptake medium. The cells are incubated for 2-3 hours at 37° C. in CO₂ incubator. After uptake, 100 μl/well of growth medium is added (gives final FBS concentration of 10%). After approximately 72 hours, 40 μl MTS® stock solution (made as described by manufacturer) was added to each well and incubated at 37° C. for 1-3 hours, depending on the color development. (For this assay, 2 hours was sufficient). The intensity of color formation was determined on a plate reader at 490 nM.

Phosphorothioate-substituted antisense oligodeoxynucleotides were custom synthesized by The Midland Certified Reagent Company®, Midland, Tex. Following non-limiting antisense oligodeoxynucleotides targeted against KDR RNA were used in the proliferation assay: KDR 21 AS: (SEQ ID NO. 8230) 5′-GCA GCA CCT TGC TCT CCA TCC-3′ SCRAMBLED CONTROL: (SEQ ID NO. 8231) 5′-CTG CCA ACT TCC CAT GCC TGC-3′

As shown in FIG. 10, proliferation of HAEC cells are specifically inhibited by increasing concentrations of the phosphorothioate anti-KDR-antisense oligodeoxynucleotide. The scrambled antisense oligonucleotide is not expected to bind the KDR RNA and therefore is not expected to inhibit KDR expression. As expected, there is no detectable inhibition of proliferation of HAEC cells treated with a phosphorothioate antisense oligonucleotide with scrambled sequence.

EXAMPLE 7 In Vitro Cleavage of fit-1 RNA by Hammerhead Ribozymes

Referring to FIG. 11A, hammerhead ribozymes (HH) targeted against sites 1358 and 4229 within the fit-1 RNA were synthesized as described above.

RNA Cleavage Assay In Vitro:

Substrate RNA was 5′ end-labeled using [γ-³²P] ATP and T4 polynucleotide kinase (US Biochemicals). Cleavage reactions were carried out under ribozyme “excess” conditions. Trace amount (≦1 nM) of 5′ end-labeled substrate and 40 nM unlabeled ribozyme were denatured and renatured separately by heating to 90° C. for 2 min and snap-cooling on ice for 10-15 min. The ribozyme and substrate were incubated, separately, at 37° C. for 10 min in a buffer containing 50 mM Tris-HCl and 10 mM MgCl2. The reaction was initiated by mixing the ribozyme and substrate solutions and incubating at 37° C. Aliquots of 5 μl are taken at regular intervals of time and the reaction is quenched by mixing with equal volume of 2× formamide stop mix. The samples are resolved on 20% denaturing polyacrylamide gels. The results were quantified and percentage of target RNA cleaved is plotted as a function of time.

Referring to FIG. 11B and 11C, hammerhead ribozymes targeted against sites 1358 and 4229 within the fit-1 RNA are capable of cleaving target RNA efficiently in vitro.

EXAMPLE 8 In Vitro Cleavage of KDR RNA by Hammerhead Ribozymes

In this non-limiting example, hammerhead ribozymes targeted against sites 726, 527, 3702 and 3950 within KDR RNA were synthesized as described above. RNA cleavage reactions were carried out in vitro essentially as described under Example 7.

Referring to FIGS. 14 and 15, all four ribozymes were able to cleave their cognate target RNA efficiently in a sequence-specific manner.

EXAMPLE 9 In Vitro Cleavage of RNA by Hammerhead Ribozymes Targeted Against Cleavage Sites that are Homologous between KDR and fit-1 mRNA

Because fit-1 and KDR mRNAs are highly homologous in certain regions, some ribozyme target sites are also homologous (see Table X). In this case, a single ribozyme will target both fit-1 and KDR mRNAs. Hammerhead ribozyme (FLT/KDR-1) targeted against one of the homologous sites between fit-1 and KDR (fit-1 site 3388 and KDR site 3151) was synthesized as described above. Ribozymes with either a 3 bp stem II or a 4 bp stem II were synthesized. RNA cleavage reactions were carried out in vitro essentially as described under Example 7.

Referring to FIG. 16, FLT/KDR-1 ribozyme with either a 3 or a 4 bp stem II was able to cleave its target RNA efficiently in vitro.

EXAMPLE 10 Effect of Multiple Ribozymes Targeted Against both fit-1 and KDR RNA on Cell Proliferation

Since both fit-1 and KDR receptors of VEGF are involved in angiogenesis, the inhibition of the expression of both of these genes may be an effective approach to inhibit angiogenesis.

Human microvascular endothalial cells were treated with hammerhead ribozymes targeted against sites fit-1 4229 alone, KDR 527 alone, KDR 726 alone, KDR 3950 alone, fit-1 4229+KDR 527, fit-1 4229+KDR 726 or fit-1 4229+KDR 3950. As shown in FIG. 17, all the combinations of active ribozymes (A) caused significant inhibition of VEGF-mediated induction of cell proliferation. No significant inhibition of cell proliferation was observed when the cells were treated with a catalytically inactive (I) hammerhead ribozymes. Additionally, cells treated with ribozymes targeted against both fit-1 and KDR RNAs-fit-1 4229+KDR 527; fit-1 4229+KDR 726; fit-1 4229+KDR 3950, were able to cause a greater inhibition of VEGF-mediated induction of cell proliferation when compared with individual ribozymes targeted against either fit-1 or KDR RNA (see fit-1 4229 alone; KDR 527 alone; KDR 726 alone; KDR 3950 alone). This strongly suggests that treatment of cells with multiple ribozymes may be a more effective means of inhibition of gene expression.

Animal Models

There are several animal models in which the anti-angiogenesis effect of nucleic acids of the present invention, such as ribozymes, directed against VEGF-R mRNAs can be tested. Typically a corneal model has been used to study angiogenesis in rat and rabbit since recruitment of vessels can easily be followed in this normally avascular tissue (Pandey et al., 1995 Science 268: 567-569). In these models, a small Teflon or Hydron disk pretreated with an angiogenesis factor (e.g. bFGF or VEGF) is inserted into a pocket surgically created in the cornea. Angiogenesis is monitored 3 to 5 days later. Ribozymes directed against VEGF-R mRNAs would be delivered in the disk as well, or dropwise to the eye over the time course of the experiment. In another eye model, hypoxia has been shown to cause both increased expression of VEGF and neovascularization in the retina (Pierce et al., 1995 Proc. Natl. Acad. Sci. USA. 92: 905-909; Shweiki et al., 1992 J. Clin. Invest. 91: 2235-2243).

In human glioblastomas, it has been shown that VEGF is at least partially responsible for tumor angiogenesis (Plate et al., 1992 Nature 359, 845). Animal models have been developed in which glioblastoma cells are implanted subcutaneously into nude mice and the progress of tumor growth and angiogenesism is studied (Kim et al., 1993 supra; Millauer et al., 1994 supra).

Another animal model that addresses neovascularization involves Matrigel, an extract of basement membrane that becomes a solid gel when injected subcutaneously (Passaniti et al., 1992 Lab. Invest. 67: 519-528). When the Matrigel is supplemented with angiogenesis factors such as VEGF, vessels grow into the Matrigel over a period of 3 to 5 days and angiogenesis can be assessed. Again, ribozymes directed against VEGF-R mRNAs would be delivered in the Matrigel.

Several animal models exist for screening of anti-angiogenic agents. These include corneal vessel formation following corneal injury (Burger et al., 1985 Cornea 4: 35-41; Lepri, et al., 1994 J. Ocular Pharmacol. 10: 273-280; Ormerod et al., 1990 Am. J. Pathol. 137: 1243-1252) or intracorneal growth factor implant (Grant et al., 1993 Diabetologia 36: 282-291; Pandey et al. 1995 supra; Zieche et al., 1992 Lab. Invest. 67: 711-715), vessel growth into Matrigel matrix containing growth factors (Passaniti et al., 1992 supra), female reproductive organ neovascularization following hormonal manipulation (Shweiki et al., 1993 Clin. Invest. 91: 2235-2243), several models involving inhibition of tumor growth in highly vascularized solid tumors (O'Reilly et al., 1994 Cell 79: 315-328; Senger et al., 1993 Cancer and Metas. Rev. 12: 303-324; Takahasi et al., 1994 Cancer Res. 54: 4233-4237; Kim et al., 1993 supra), and transient hypoxia-induced neovascularization in the mouse retina (Pierce et al., 1995 Proc. Natl. Acad. Sci. USA. 92: 905-909).

The cornea model, described in Pandey et al. supra, is the most common and well characterized anti-angiogenic agent efficacy screening model. This model involves an avascular tissue into which vessels are recruited by a stimulating agent (growth factor, thermal or alkalai burn, endotoxin). The corneal model would utilize the intrastromal corneal implantation of a Teflon pellet soaked in a VEGF-Hydron solution to recruit blood vessels toward the pellet which can be quantitated using standard microscopic and image analysis techniques. To evaluate their anti-angiogenic efficacy, ribozymes are applied topically to the eye or bound within Hydron on the Teflon pellet itself. This avascular cornea as well as the Matrigel (see below) provide for low background assays. While the corneal model has been performed extensively in the rabbit, studies in the rat have also been conducted.

The mouse model (Passaniti et al., supra) is a non-tissue model which utilizes Matrigel, an extract of basement membrane (Kleinman et al., 1986) or Millipore® filter disk, which can be impregnated with growth factors and anti-angiogenic agents in a liquid form prior to injection. Upon subcutaneous administration at body temperature, the Matrigel or Millipore® filter disk forms a solid implant. VEGF embedded in the Matrigel or Millipore® filter disk would be used to recruit vessels within the matrix of the Matrigel or Millipore® filter disk which can be processed histologically for endothelial cell specific vWF (factor VIII antigen) immunohistochemistry, Trichrome-Masson stain, or hemoglobin content. Like the cornea, the Matrigel or Millipore® filter disk are avascular; however, it is not tissue. In the Matrigel or Millipore® filter disk model, ribozymes are administered within the matrix of the Matrigel or Millipore® filter disk to test their anti-angiogenic efficacy. Thus, delivery issues in this model, as with delivery of ribozymes by Hydron-coated Teflon pellets in the rat cornea model, may be less problematic due to the homogeneous presence of the ribozyme within the respective matrix.

These models offer a distinct advantage over several other angiogenic models listed previously. The ability to use VEGF as a pro-angiogenic stimulus in both models is highly desirable since ribozymes will target only VEGFr mRNA. In other words, the involvement of other non-specific types of stimuli in the cornea and Matrigel models is not advantageous from the standpoint of understanding the pharmacologic mechanism by which the anti-VEGFr mRNA ribozymes produce their effects. In addition, the models will allow for testing the specificity of the anti-VEGFr mRNA ribozymes by using either a- or bFGF as a pro-angiogenic factor. Vessel recruitment using FGF should not be affected in either model by anti-VEGFr mRNA ribozymes. Other models of angiogenesis including vessel formation in the female reproductive system using hormonal manipulation (Shweiki et al., 1993 supra); a variety of vascular solid tumor models which involve indirect correltations with angiogenesis (O'Reilly et al., 1994 supra; Senger et al., 1993 supra; Takahasi et al., 1994 supra; Kim et al., 1993 supra); and retinal neovascularization following transient hypoxia (Pierce et al., 1995 supra) were not selected for efficacy screening due to their non-specific nature, although there is a correlation between VEGF and angiogenesis in these models.

Other model systems to study tumor angiogenesis is reviewed by Folkman, 1985 Adv. Cancer. Res. 43, 175.

fit-1, KDR and/or flk-1 protein levels can be measured clinically or experimentally by FACS analysis. fit-1, KDR and/or flk-1 encoded mRNA levels will be assessed by Northern analysis, RNase-protection, primer extension analysis and/or quantitative RT-PCR. Ribozymes that block fit-1, KDR and/or fik-1 protein encoding mRNAs and therefore result in decreased levels of fit-1, KDR and/or flk-1 activity by more than 20% in vitro will be identified.

Ribozymes and/or genes encoding them are delivered by either free delivery, liposome delivery, cationic lipid delivery, adeno-associated virus vector delivery, adenovirus vector delivery, retrovirus vector delivery or plasmid vector delivery in these animal model experiments (see above).

Patients can be treated by locally administering nucleic acids targeted against VEGF-R by direct injection. Routes of administration may include, but are not limited to, intravascular, intramuscular, subcutaneous, intraarticular, aerosol inhalation, oral (tablet, capsule or pill form), topical, systemic, ocular, intraperitoneal and/or intrathecal delivery.

EXAMPLE 11 Ribozyme-Mediated Inhibition of Angiogenesis In Vivo

The purpose ot this study was to assess the anti-angiogenic activity of hammerhead ribozymes targeted against fit-1 4229 site in the rat cornea model of VEGF induced angiogenesis (see above). These ribozymes have either active or inactive catalytic core and either bind and cleave or just bind to VEGF-R mRNA of the fit-1 subtype. The active ribozymes, that are able to bind and cleave the target RNA, have been shown to inhibit (¹²⁵I-labeled) VEGF binding in cultured endothelial cells and produce a dose-dependent decrease in VEGF induced endothelial cell proliferation in these cells (see Examples 3-5 above). The catalytically inactive forms of these ribozymes, wherein the ribozymes can only bind to the RNA but cannot catalyze RNA cleavage, fail to show these characteristics. The ribozymes and VEGF were co-delivered using the filter disk method: Nitrocellulose filter disks (Millipore®) of 0.057 diameter were immersed in appropriate solutions and were surgically implanted in rat cornea as described by Pandey et al., supra. This delivery method has been shown to deliver rhodamine-labeled free ribozyme to scleral cells and, in all likelihood cells of the pericorneal vascular plexus. Since the active ribozymes show cell culture efficacy and can be delivered to the target site using the disk method, it is essential that these ribozymes be assessed for in vivo anti-angiogenic activity.

The stimulus for angiogenesis in this study was the treatment of the filter disk with 30 p M VEGF which is implanted within the cornea's stroma. This dose yields reproducible neovascularization stemming from the pericorneal vascular plexus growing toward the disk in a dose-response study 5 days following implant. Filter disks treated only with the vehicle for VEGF show no angiogenic response. The ribozymes was co-adminstered with VEGF on a disk in two different ribozyme concentrations. One concern with the simultaneous administration is that the ribozymes will not be able to inhibit angiogenesis since VEGF receptors can be stimulated. However, we have observed that in low VEGF doses, the neovascular response reverts to normal suggesting that the VEGF stimulus is essential for maintaining the angiogenic response. Blocking the production of VEGF receptors using simultaneous administration of anti-VEGF-R mRNA ribozymes could attenuate the normal neovascularization induced by the filter disk treated with VEGF.

Materials and Methods:

-   1. Stock hammerhead ribozyme solutions:     -   a. fit-1 4229 (786 μM) Active     -   b. fIt-1 4229 (736 μM) Inactive -   2. Experimantal solutions/groups: -   Group 1 Solution 1 Control VEGF solution: 30 μM in 82 mM Tris base -   Group 2 Solution 2 fit-1 4229 (1 μg/μL) in 30 μM VEGF/82 mM Tris     base -   Group 3 Solution 3 fit-1 4229 (10 μg/μL) in 30 μM VEGF/82 mM Tris     base -   Group 4 Solution 4 No VEGF, fit-1 4229 (10 μg/μL) in 82 mM Tris base -   Group 5 Solution 5 No VEGF, No ribozyme in 82 mM Tris base     10 eyes per group, 5 animals (Since they have similar molecular     weights, the molar concentrations should be essentially similar).

Each solution (VEGF and RIBOZYMES) were prepared as a 2× solution for 1:1 mixing for final concentrations above, with the exception of solution 1 in which VEGF was 2× and diluted with ribozyme diluent (sterile water).

3. VEGF Solutions

The 2×VEGF solution (60 μM) was prepared from a stock of 0.82 μg/μL in 50 mM Tris base. 200 μL of VEGF stock was concentrated by speed vac to a final volume of 60.8 μL, for a final concentration of 2.7 μg/μL or 60 μM. Six 10 μL aliquots was prepared for daily mixing. 2× solutions for VEGF and Ribozyme was stored at 4° C. until the day of the surgery. Solutions were mixed for each day of surgery. Original 2× solutions was prepared on the day before the first day of the surgery.

4. Surgical Solutions:

Anesthesia:

-   -   stock ketamine hydrochloride 100 mg/mL     -   stock xylazine hydrochloride 20 mg/mL     -   stock acepromazine 10 mg/mL

Final anesthesia solution: 50 mg/mL ketamine, 10 mg/mL xylazine, and 0.5 mg/mL acepromazine

-   -   5% povidone iodine for opthalmic surgical wash     -   2% lidocaine (sterile) for opthalmic administration (2 drops per         eye)     -   sterile 0.9% NaCl for opthalmic irrigation         5. Surgical Methods:

Standard surgical procedure as described in Pandey et al., supra. Filter disks were incubated in 1 μL of each solution for approximately 30 minutes prior to implantation.

5. Experimental Protocol:

The animal cornea were treated with the treatment groups as described above. Animals were allowed to recover for 5 days after treatment with daily observation (scoring 0-3). On the fifth day animals were euthanized and digital images of each eye was obtained for quantitaion using Image Pro Plus. Quantitated neovascular surface area were analyzed by ANOVA followed by two post-hoc tests including Dunnets and Tukey-Kramer tests for significance at the 95% confidence level. Dunnets provide information on the significance between the differences within the means of treatments vs. controls while Tukey-Kramer provide information on the significance of differences within the means of each group.

Results are graphically represented in FIG. 18. As shown in the figure, fit-1 4229 active hammerhead ribozyme at both concentrations was effective at inhibiting angiogenesis while the inactive ribozyme did not show any significant reduction in angiogenesis. A statistically signifiant reduction in neovascular surface area was observed only with active ribozymes. This result clearly shows that the ribozymes are capable of significantly inhibiting angiogenesis in vivo. Specifically, the mechanism of inhibition appears to be by the binding and cleavage of target RNA by ribozymes.

Diagnostic Uses

Ribozymes of this invention may be used as diagnostic tools to examine genetic drift and mutations within diseased cells or to detect the presence of fit-1, KDR and/or flk-1 RNA in a cell. The close relationship between ribozyme activity and the structure of the target RNA allows the detection of mutations in any region of the molecule which alters the base-pairing and three-dimensional structure of the target RNA. By using multiple ribozymes described in this invention, one may map nucleotide changes which are important to RNA structure and function in vitro, as well as in cells and tissues. Cleavage of target RNAs with ribozymes may be used to inhibit gene expression and define the role (essentially) of specified gene products in the progression of disease. In this manner, other genetic targets may be defined as important mediators of the disease. These experiments will lead to better treatment of the disease progression by affording the possibility of combinational therapies (e.g., multiple ribozymes targeted to different genes, ribozymes coupled with known small molecule inhibitors, or intermittent treatment with combinations of ribozymes and/or other chemical or biological molecules). Other in vitro uses of ribozymes of this invention are well known in the art, and include detection of the presence of mRNAs associated with fit-1, KDR and/or flk-1 □ related condition. Such RNA is detected by determining the presence of a cleavage product after treatment with a ribozyme using standard methodology.

In a specific example, ribozymes which can cleave only wild-type or mutant forms of the target RNA are used for the assay. The first ribozyme is used to identify wild-type RNA present in the sample and the second ribozyme will be used to identify mutant RNA in the sample. As reaction controls, synthetic substrates of both wild-type and mutant RNA will be cleaved by both ribozymes to demonstrate the relative ribozyme efficiencies in the reactions and the absence of cleavage of the “non-targeted” RNA species. The cleavage products from the synthetic substrates will also serve to generate size markers for the analysis of wild-type and mutant RNAs in the sample population. Thus each analysis will require two ribozymes, two substrates and one unknown sample which will be combined into six reactions. The presence of cleavage products will be determined using an RNAse protection assay so that full-length and cleavage fragments of each RNA can be analyzed in one lane of a polyacrylamide gel. It is not absolutely required to quantify the results to gain insight into the expression of mutant RNAs and putative risk of the desired phenotypic changes in target cells. The expression of mRNA whose protein product is implicated in the development of the phenotype (i.e., fit-1, KDR and/or flk-1) is adequate to establish risk. If probes of comparable specific activity are used for both transcripts, then a qualitative comparison of RNA levels will be adequate and will decrease the cost of the initial diagnosis. Higher mutant form to wild-type ratios will be correlated with higher risk whether RNA levels are compared qualitatively or quantitatively. TABLE II Human flt1 VEGF Receptor-Hammerhead Ribozyme and Substrate Sequence Seq Seq ID ID Pos Substrate No HH Ribozyme No 10 CGGACACUC CUCUCGGC 1 GCCGAGAG CUGAUGAGGNNNNNNNNCCGAA AGUGUCCG 4157 13 ACACUCCUC UCGGCUCC 2 GGAGCCGA CUGAUGAGGNNNNNNNNCCGAA AGGAGUGU 4158 15 ACUCCUCUC GGCUCCUC 3 GAGGAGCC CUGAUGAGGNNNNNNNNCCGAA AGAGGAGU 4159 20 UCUCGGCUC CUCCCCGG 4 CCGGGGAG CUGAUGAGGNNNNNNNNCCGAA AGCCGAGA 4160 23 CGGCUCCUC CCCGGCAG 5 CUGCCGGG CUGAUGAGGNNNNNNNNCCGAA AGGAGCCG 4161 43 CGGCGGCUC GGAGCGGG 6 CCCGCUCC CUGAUGAGGNNNNNNNNCCGAA AGCCGCCG 4162 54 AGCGGGCUC CGGGGCUC 7 GAGCCCCG CUGAUGAGGNNNNNNNNCCGAA AGCCCGCU 4163 62 CCGGGGCUC GGGUGCAG 8 CUGCACCC CUGAUGAGGNNNNNNNNCCGAA AGCCCCGG 4164 97 GCGAGGAUU ACCCGGGG 9 CCCCGGGU CUGAUGAGGNNNNNNNNCCGAA AUCCUCGC 4165 98 CGAGGAUUA CCCGGGGA 10 UCCCCGGG CUGAUGAGGNNNNNNNNCCGAA AAUCCUCG 4166 113 GAAGUGGUU GUCUCCUG 11 CAGGAGAC CUGAUGAGGNNNNNNNNCCGAA ACCACUUC 4167 116 GUGGUUGUC UCCUGGCU 12 AGCCAGGA CUGAUGAGGNNNNNNNNCCGAA ACAACCAC 4168 118 GGUUGUCUC CUGGCUGG 13 CCAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGACAACC 4169 145 CGGGCGCUC AGGGCGCG 14 CGCGCCCU CUGAUGAGGNNNNNNNNCCGAA AGCGCCCG 4170 185 GACGGACUC UGGCGGCC 15 GGCCGCCA CUGAUGAGGNNNNNNNNCCGAA AGUCCGUC 4171 198 GGCCGGGUC GUUGGCCG 16 CGGCCAAC CUGAUGAGGNNNNNNNNCCGAA ACCCGGCC 4172 201 CGGGUCGUU GGCCGGGG 17 CCCCGGCC CUGAUGAGGNNNNNNNNCCGAA ACGACCCG 4173 240 GGCCGCGUC GCGCUCAC 18 GUGAGCGC CUGAUGAGGNNNNNNNNCCGAA ACGCGGCC 4174 246 GUCGCGCUC ACCAUGGU 19 ACCAUGGU CUGAUGAGGNNNNNNNNCCGAA AGCGCGAC 4175 255 ACCAUGGUC AGCUACUG 20 CAGUAGCU CUGAUGAGGNNNNNNNNCCGAA ACCAUGGU 4176 260 GGUCAGCUA CUGGGACA 21 UGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AGCUGACC 4177 276 ACCGGGGUC CUGCUGUG 22 CACAGCAG CUGAUGAGGNNNNNNNNCCGAA ACCCCGGU 4178 294 GCGCUGCUC AGCUGUCU 23 AGACAGCU CUGAUGAGGNNNNNNNNCCGAA AGCAGCGC 4179 301 UCAGCUGUC UGCUUCUC 24 GAGAAGCA CUGAUGAGGNNNNNNNNCCGAA ACAGCUGA 4180 306 UGUCUGCUU CUCACAGG 25 CCUGUGAG CUGAUGAGGNNNNNNNNCCGAA AGCAGACA 4181 307 GUCUGCUUC UCACAGGA 26 UCCUGUGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGAC 4182 309 CUGCUUCUC ACAGGAUC 27 GAUCCUGU CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG 4183 317 CACAGGAUC UAGUUCAG 28 CUGAACUA CUGAUGAGGNNNNNNNNCCGAA AUCCUGUG 4184 319 CAGGAUCUA GUUCAGGU 29 ACCUGAAC CUGAUGAGGNNNNNNNNCCGAA AGAUCCUG 4185 322 GAUCUAGUU CAGGUUCA 30 UGAACCUG CUGAUGAGGNNNNNNNNCCGAA ACUAGAUC 4186 323 AUCUAGUUC AGGUUCAA 31 UUGAACCU CUGAUGAGGNNNNNNNNCCGAA AACUAGAU 4187 328 GUUCAGGUU CAAAAUUA 32 UAAUUUUG CUGAUGAGGNNNNNNNNCCGAA ACCUGAAC 4188 329 UUCAGGUUC AAAAUUAA 33 UUAAUUUU CUGAUGAGGNNNNNNNNCCGAA AACCUGAA 4189 335 UUCAAAAUU AAAAGAUC 34 GAUCUUUU CUGAUGAGGNNNNNNNNCCGAA AUUUUGAA 4190 336 UCAAAAUUA AAAGAUCC 35 GGAUCUUU CUGAUGAGGNNNNNNNNCCGAA AAUUUUGA 4191 343 UAAAAGAUC CUGAACUG 36 CAGUUCAG CUGAUGAGGNNNNNNNNCCGAA AUCUUUUA 4192 355 AACUGAGUU UAAAAGGC 37 GCCUUUUA CUGAUGAGGNNNNNNNNCCGAA ACUCAGUU 4193 356 ACUGAGUUU AAAAGGCA 38 UGCCUUUU CUGAUGAGGNNNNNNNNCCGAA AACUCAGU 4194 357 CUGAGUUUA AAAGGCAC 39 GUGCCUUU CUGAUGAGGNNNNNNNNCCGAA AAACUCAG 4195 375 CAGCACAUC AUGCAAGC 40 GCUUGCAU CUGAUGAGGNNNNNNNNCCGAA AUGUGCUG 4196 400 CACUGCAUC UCCAAUGC 41 GCAUUGGA CUGAUGAGGNNNNNNNNCCGAA AUGCAGUG 4197 402 CUGCAUCUC CAAUGCAG 42 CUGCAUUG CUGAUGAGGNNNNNNNNCCGAA AGAUGGAG 4198 427 CAGCCCAUA AAUGGUCU 43 AGACCAUU CUGAUGAGGNNNNNNNNCCGAA AUGGGCUG 4199 434 UAAAUGGUC UUUGCCUG 44 CAGGCAAA CUGAUGAGGNNNNNNNNCCGAA ACCAUUUA 4200 436 AAUGGUCUU UGCCUGAA 45 UUCAGGCA CUGAUGAGGNNNNNNNNCCGAA AGACCAUU 4201 437 AUGGUCUUU GCCUGAAA 46 UUUCAGGC CUGAUGAGGNNNNNNNNCCGAA AAGACCAU 4202 454 UGGUGAGUA AGGAAAGC 47 GCUUUCCU CUGAUGAGGNNNNNNNNCCGAA ACUCACCA 4203 477 CUGAGCAUA ACUAAAUC 48 GAUUUAGU CUGAUGAGGNNNNNNNNCCGAA AUGCUCAG 4204 481 GCAUAACUA AAUCUGCC 49 GGCAGAUU CUGAUGAGGNNNNNNNNCCGAA AGUUAUGC 4205 485 AACUAAAUC UGCCUGUG 50 CACAGGCA CUGAUGAGGNNNNNNNNCCGAA AUUUAGUU 4206 512 CAAACAAUU CUGCAGUA 51 UACUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUGUUUG 4207 513 AAACAAUUC UGCAGUAC 52 GUACUGGA CUGAUGAGGNNNNNNNNCCGAA AAUUGUUU 4208 520 UCUGCAGUA CUUUAACC 53 GGUUAAAG CUGAUGAGGNNNNNNNNCCGAA ACUGCAGA 4209 523 GCAGUACUU UAACCUUG 54 CAAGGUUA CUGAUGAGGNNNNNNNNCCGAA AGUACUGC 4210 524 CAGUACUUU AACCUUGA 55 UCAAGGUU CUGAUGAGGNNNNNNNNCCGAA AAGUACUG 4211 525 AGUACUUUA ACCUUGAA 56 UUCAAGGU CUGAUGAGGNNNNNNNNCCGAA AAAGUACU 4212 530 UUUAACCUU GAACACAG 57 CUGUGUUC CUGAUGAGGNNNNNNNNCCGAA AGGUUAAA 4213 541 ACACAGCUC AAGCAAAC 58 GUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AGCUGUGU 4214 560 CACUGGCUU CUACAGCU 59 AGCUGUAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGUG 4215 561 ACUGGCUUC UACAGCUG 60 CAGCUGUA CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU 4216 563 UGGCUUCUA CAGCUGCA 61 UGCAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAAGCCA 4217 575 CUGCAAAUA UCUAGCUG 62 CAGCUAGA CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG 4218 577 GCAAAUAUC UAGCUGUA 63 UACAGCUA CUGAUGAGGNNNNNNNNCCGAA AUAUUUGC 4219 579 AAAUAUCUA GCUGUACC 64 GGUACAGC CUGAUGAGGNNNNNNNNCCGAA AGAUAUUU 4220 585 CUAGCUGUA CCUACUUC 65 GAAGUAGG CUGAUGAGGNNNNNNNNCCGAA ACAGCUAG 4221 589 CUGUACCUA CUUCAAAG 66 CUUUGAAG CUGAUGAGGNNNNNNNNCCGAA AGGUACAG 4222 592 UACCUACUU CAAAGAAG 67 CUUCUUUG CUGAUGAGGNNNNNNNNCCGAA AGUAGGUA 4223 593 ACCUACUUC AAAGAAGA 68 UCUUCUUU CUGAUGAGGNNNNNNNNCCGAA AAGUAGGU 4224 614 AACAGAAUC UGCAAUCU 69 AGAUUGCA CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU 4225 621 UCUGCAAUC UAUAUAUU 70 AAUAUAUA CUGAUGAGGNNNNNNNNCCGAA AUUGCAGA 4226 623 UGCAAUCUA UAUAUUUA 71 UAAAUAUA CUGAUGAGGNNNNNNNNCCGAA AGAUUGCA 4227 625 CAAUCUAUA UAUUUAUU 72 AAUAAAUA CUGAUGAGGNNNNNNNNCCGAA AUAGAUUG 4228 627 AUCUAUAUA UUUAUUAG 73 CUAAUAAA CUGAUGAGGNNNNNNNNCCGAA AUAUAGAU 4229 629 CUAUAUAUU UAUUAGUG 74 CACUAAUA CUGAUGAGGNNNNNNNNCCGAA AUAUAUAG 4230 630 UAUAUAUUU AUUAGUGA 75 UCACUAAU CUGAUGAGGNNNNNNNNCCGAA AAUAUAUA 4231 631 AUAUAUUUA UUAGUGAU 76 AUCACUAA CUGAUGAGGNNNNNNNNCCGAA AAAUAUAU 4232 633 AUAUUUAUU AGUGAUAC 77 GUAUCACU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU 4233 634 UAUUUAUUA GUGAUACA 78 UGUAUCAC CUGAUGAGGNNNNNNNNCCGAA AAUAAAUA 4234 640 UUAGUGAUA CAGGUAGA 79 UCUACCUG CUGAUGAGGNNNNNNNNCCGAA AUCACUAA 4235 646 AUACAGGUA GACCUUUC 80 GAAAGGUC CUGAUGAGGNNNNNNNNCCGAA ACCUGUAU 4236 652 GUAGACCUU UCGUAGAG 81 CUCUACGA CUGAUGAGGNNNNNNNNCCGAA AGGUCUAC 4237 653 UAGACCUUU CGUAGAGA 82 UCUCUACG CUGAUGAGGNNNNNNNNCCGAA AAGGUCUA 4238 654 AGACCUUUC GUAGAGAU 83 AUCUCUAC CUGAUGAGGNNNNNNNNCCGAA AAAGGUCU 4239 657 CCUUUCGUA GAGAUGUA 84 UACAUCUC CUGAUGAGGNNNNNNNNCCGAA ACGAAAGG 4240 665 AGAGAUGUA CAGUGAAA 85 UUUCACUG CUGAUGAGGNNNNNNNNCCGAA ACAUCUCU 4241 675 AGUGAAAUC CCCGAAAU 86 AUUUCGGG CUGAUGAGGNNNNNNNNCCGAA AUUUCACU 4242 684 CCCGAAAUU AUACACAU 87 AUGUGUAU CUGAUGAGGNNNNNNNNCCGAA AUUUCGGG 4243 685 CCGAAAUUA UACACAUG 88 CAUGUGUA CUGAUGAGGNNNNNNNNCCGAA AAUUUCGG 4244 687 GAAAUUAUA CACAUGAC 89 GUCAUGUG CUGAUGAGGNNNNNNNNCCGAA AUAAUUUC 4245 711 AGGGAGCUC GUCAUUCC 90 GGAAUGAC CUGAUGAGGNNNNNNNNCCGAA AGCUCCCU 4246 714 GAGCUCGUC AUUCCCUG 91 CAGGGAAU CUGAUGAGGNNNNNNNNCCGAA ACGAGCUC 4247 717 CUCGUCAUU CCCUGCCG 92 CGGCAGGG CUGAUGAGGNNNNNNNNCCGAA AUGAGGAG 4248 718 UCGUCAUUC CCUGCCGG 93 CCGGCAGG CUGAUGAGGNNNNNNNNCCGAA AAUGACGA 4249 729 UGCCGGGUU ACGUCACC 94 GGUGACGU CUGAUGAGGNNNNNNNNCCGAA ACCCGGCA 4250 730 GCCGGGUUA CGUCACCU 95 AGGUGACG CUGAUGAGGNNNNNNNNCCGAA AAGCCGGC 4251 734 GGUUACGUC ACCUAACA 96 UGUUAGGU CUGAUGAGGNNNNNNNNCCGAA ACGUAACC 4252 739 CGUCACCUA ACAUCACU 97 AGUGAUGU CUGAUGAGGNNNNNNNNCCGAA AGGUGACG 4253 744 CCUAACAUC ACUGUUAC 98 GUAACAGU CUGAUGAGGNNNNNNNNCCGAA AUGUUAGG 4254 750 AUCACUGUU ACUUUAAA 99 UUUAAAGU CUGAUGAGGNNNNNNNNCCGAA ACAGUGAU 4255 751 UCACUGUUA CUUUAAAA 100 UUUUAAAG CUGAUGAGGNNNNNNNNCCGAA AACAGUGA 4256 754 CUGUUACUU UAAAAAAG 101 CUUUUUUA CUGAUGAGGNNNNNNNNCCGAA AGUAACAG 4257 755 UGUUACUUU AAAAAAGU 102 ACUUUUUU CUGAUGAGGNNNNNNNNCCGAA AAGUAACA 4258 756 GUUACUUUA AAAAAGUU 103 AACUUUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUAAC 4259 764 AAAAAAGUU UCCACUUG 104 CAAGUGGA CUGAUGAGGNNNNNNNNCCGAA ACUUUUUU 4260 765 AAAAAGUUU CCACUUGA 105 UCAAGUGG CUGAUGAGGNNNNNNNNCCGAA AACUUUUU 4261 766 AAAAGUUUC CACUUGAC 106 GUCAAGUG CUGAUGAGGNNNNNNNNCCGAA AAACUUUU 4262 771 UUUCCACUU GACACUUU 107 AAAGUGUC CUGAUGAGGNNNNNNNNCCGAA AGUGGAAA 4263 778 UUGACACUU UGAUCCCU 108 AGGGAUCA CUGAUGAGGNNNNNNNNCCGAA AGUGUCAA 4264 779 UGACACUUU GAUCCCUG 109 CAGGGAUC CUGAUGAGGNNNNNNNNCCGAA AAGUGUCA 4265 783 ACUUUGAUC CCUGAUGG 110 CCAUCAGG CUGAUGAGGNNNNNNNNCCGAA AUCAAAGU 4266 801 AAACGCAUA AUCUGGGA 111 UCCCAGAU CUGAUGAGGNNNNNNNNCCGAA AUGCGUUU 4267 804 CGCAUAAUC UGGGACAG 112 CUGUCCCA CUGAUGAGGNNNNNNNNCCGAA AUUAUGCG 4268 814 GGGACAGUA GAAAGGGC 113 GCCCUUUC CUGAUGAGGNNNNNNNNCCGAA ACUGUCCC 4269 824 AAAGGGCUU CAUCAUAU 114 AUAUGAUG CUGAUGAGGNNNNNNNNCCGAA AGCCCUUU 4270 825 AAGGGCUUC AUCAUAUC 115 GAUAUGAU CUGAUGAGGNNNNNNNNCCGAA AAGCCCUU 4271 828 GGCUUCAUC AUAUCAAA 116 UUUGAUAU CUGAUGAGGNNNNNNNNCCGAA AUGAAGCC 4272 831 UUCAUCAUA UCAAAUGC 117 GCAUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGAUGAA 4273 833 CAUCAUAUC AAAUGCAA 118 UUGCAUUU CUGAUGAGGNNNNNNNNCCGAA AUAUGAUG 4274 845 UGCAACGUA CAAAGAAA 119 UUUCUUUG CUGAUGAGGNNNNNNNNCCGAA ACGUUGCA 4275 855 AAAGAAAUA GGGCUUCU 120 AGAAGCCC CUGAUGAGGNNNNNNNNCCGAA AUUUCUUU 4276 861 AUAGGGCUU CUGACCUG 121 CAGGUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCCUAU 4277 862 UAGGGCUUC UGACCUGU 122 ACAGGUCA CUGAUGAGGNNNNNNNNCCGAA AAGCCCUA 4278 882 GCAACAGUC AAUGGGCA 123 UGCCCAUU CUGAUGAGGNNNNNNNNCCGAA ACUGUUGC 4279 892 AUGGGCAUU UGUAUAAG 124 CUUAUACA CUGAUGAGGNNNNNNNNCCGAA AUGCCCAU 4280 893 UGGGCAUUU GUAUAAGA 125 UCUUAUAC CUGAUGAGGNNNNNNNNCCGAA AAUGCCCA 4281 896 GCAUUUGUA UAAGACAA 126 UUGUCUUA CUGAUGAGGNNNNNNNNCCGAA ACAAAUGC 4282 898 AUUUGUAUA AGACAAAC 127 GUUUGUCU CUGAUGAGGNNNNNNNNCCGAA AUACAAAU 4283 908 GACAAACUA UCUCACAC 128 GUGUGAGA CUGAUGAGGNNNNNNNNCCGAA AGUUUGUC 4284 910 CAAACUAUC UCACACAU 129 AUGUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAGUUUG 4285 912 AACUAUCUC ACACAUCG 130 CGAUGUGU CUGAUGAGGNNNNNNNNCCGAA AGAUAGUU 4286 919 UCACACAUC GACAAACC 131 GGUUUGUC CUGAUGAGGNNNNNNNNCCGAA AUGUGUGA 4287 931 AAACCAAUA CAAUCAUA 132 UAUGAUUG CUGAUGAGGNNNNNNNNCCGAA AUUGGUUU 4288 936 AAUACAAUC AUAGAUGU 133 ACAUCUAU CUGAUGAGGNNNNNNNNCCGAA AUUGUAUU 4289 939 ACAAUCAUA GAUGUCCA 134 UGGACAUC CUGAUGAGGNNNNNNNNCCGAA AUGAUUGU 4290 945 AUAGAUGUC CAAAUAAG 135 CUUAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAUCUAU 4291 951 GUCCAAAUA AGCACACC 136 GGUGUGCU CUGAUGAGGNNNNNNNNCCGAA AUUUGGAC 4292 969 CGCCCAGUC AAAUUACU 137 AGUAAUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGGCG 4293 974 AGUCAAAUU ACUUAGAG 138 CUCUAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUGACU 4294 975 GUCAAAUUA CUUAGAGG 139 CCUCUAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUGAC 4295 978 AAAUUACUU AGAGGCCA 140 UGGCCUCU CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU 4296 979 AAUUACUUA GAGGCCAU 141 AUGGCCUC CUGAUGAGGNNNNNNNNCCGAA AAGUAAUU 4297 988 GAGGCCAUA CUCUUGUC 142 GACAAGAG CUGAUGAGGNNNNNNNNCCGAA AUGGCCUC 4298 991 GCCAUACUC UUGUCCUC 143 GAGGACAA CUGAUGAGGNNNNNNNNCCGAA AGUAUGGC 4299 993 CAUACUCUU GUCCUCAA 144 UUGAGGAC CUGAUGAGGNNNNNNNNCCGAA AGAGUAUG 4300 996 ACUCUUGUC CUCAAUUG 145 CAAUUGAG CUGAUGAGGNNNNNNNNCCGAA ACAAGAGU 4301 999 CUUGUCCUC AAUUGUAC 146 GUACAAUU CUGAUGAGGNNNNNNNNCCGAA AGGACAAG 4302 1003 UCCUCAAUU GUACUGCU 147 AGCAGUAC CUGAUGAGGNNNNNNNNCCGAA AUUGAGGA 4303 1006 UCAAUUGUA CUGCUACC 148 GGUAGCAG CUGAUGAGGNNNNNNNNCCGAA ACAAUUGA 4304 1012 GUACUGCUA CCACUCCC 149 GGGAGUGG CUGAUGAGGNNNNNNNNCCGAA AGCAGUAC 4305 1018 CUACCACUC CCUUGAAC 150 GUUCAAGG CUGAUGAGGNNNNNNNNCCGAA AGUGGUAG 4306 1022 CACUCCCUU GAACACGA 151 UCGUGUUC CUGAUGAGGNNNNNNNNCCGAA AGGGAGUG 4307 1035 ACGAGAGUU CAAAUGAC 152 GUCAUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCUCGU 4308 1036 CGAGAGUUC AAAUGACC 153 GGUCAUUU CUGAUGAGGNNNNNNNNCCGAA AACUCUCG 4309 1051 CCUGGAGUU ACCCUGAU 154 AUCAGGGU CUGAUGAGGNNNNNNNNCCGAA ACUCCAGG 4310 1052 CUGGAGUUA CCCUGAUG 155 CAUCAGGG CUGAUGAGGNNNNNNNNCCGAA AACUCCAG 4311 1069 AAAAAAAUA AGAGAGCU 156 AGCUCUCU CUGAUGAGGNNNNNNNNCCGAA AUUUUUUU 4312 1078 AGAGAGCUU CCGUAAGG 157 CCUUACGG CUGAUGAGGNNNNNNNNCCGAA AGCUCUCU 4313 1079 GAGAGCUUC CGUAAGGC 158 GCCUUACG CUGAUGAGGNNNNNNNNCCGAA AAGCUCUC 4314 1083 GCUUCCGUA AGGCGACG 159 CGUCGCCU CUGAUGAGGNNNNNNNNCCGAA ACGGAAGC 4315 1095 CGACGAAUU GACCAAAG 160 CUUUGGUC CUGAUGAGGNNNNNNNNCCGAA AUUCGUCG 4316 1108 AAAGCAAUU CCCAUGCC 161 GGCAUGGG CUGAUGAGGNNNNNNNNCCGAA AUUGCUUU 4317 1109 AAGCAAUUC CCAUGCCA 162 UGGCAUGG CUGAUGAGGNNNNNNNNCCGAA AAUUGCUU 4318 1122 GCCAACAUA UUCUACAG 163 CUGUAGAA CUGAUGAGGNNNNNNNNCCGAA AUGUUGGC 4319 1124 CAACAUAUU CUACAGUG 164 CACUGUAG CUGAUGAGGNNNNNNNNCCGAA AUAUGUUG 4320 1125 AACAUAUUC UACAGUGU 165 ACACUGUA CUGAUGAGGNNNNNNNNCCGAA AAUAUGUU 4321 1127 CAUAUUCUA CAGUGUUC 166 GAACACUG CUGAUGAGGNNNNNNNNCCGAA AGAAUAUG 4322 1134 UACAGUGUU CUUACUAU 167 AUAGUAAG CUGAUGAGGNNNNNNNNCCGAA ACACUGUA 4323 1135 ACAGUGUUC UUACUAUU 168 AAUAGUAA CUGAUGAGGNNNNNNNNCCGAA AACACUGU 4324 1137 AGUGUUCUU ACUAUUGA 169 UCAAUAGU CUGAUGAGGNNNNNNNNCCGAA AGAACACU 4325 1138 GUGUUCUUA CUAUUGAC 170 GUCAAUAG CUGAUGAGGNNNNNNNNCCGAA AAGAACAC 4326 1141 UUCUUACUA UUGACAAA 171 UUUGUCAA CUGAUGAGGNNNNNNNNCCGAA AGUAAGAA 4327 1143 CUUACUAUU GACAAAAU 172 AUUUUGUC CUGAUGAGGNNNNNNNNCCGAA AUAGUAAG 4328 1173 AAAGGACUU UAUACUUG 173 CAAGUAUA CUGAUGAGGNNNNNNNNCCGAA AGUCCUUU 4329 1174 AAGGACUUU AUACUUGU 174 ACAAGUAU CUGAUGAGGNNNNNNNNCCGAA AAGUCCUU 4330 1175 AGGACUUUA UACUUGUC 175 GACAAGUA CUGAUGAGGNNNNNNNNCCGAA AAAGUCCU 4331 1177 GACUUUAUA CUUGUCGU 176 ACGACAAG CUGAUGAGGNNNNNNNNCCGAA AUAAAGUC 4332 1180 UUUAUACUU GUCGUGUA 177 UACACGAC CUGAUGAGGNNNNNNNNCCGAA AGUAUAAA 4333 1183 AUACUUGUC GUGUAAGG 178 CCUUACAC CUGAUGAGGNNNNNNNNCCGAA ACAAGUAU 4334 1188 UGUCGUGUA AGGAGUGG 179 CCACUCCU CUGAUGAGGNNNNNNNNCCGAA ACACGACA 4335 1202 UGGACCAUC AUUCAAAU 180 AUUUGAAU CUGAUGAGGNNNNNNNNCCGAA AUGGUCCA 4336 1205 ACCAUCAUU CAAAUCUG 181 CAGAUUUG CUGAUGAGGNNNNNNNNCCGAA AUGAUGGU 4337 1206 CCAUCAUUC AAAUCUGU 182 ACAGAUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAUGG 4338 1211 AUUCAAAUC UGUUAACA 183 UGUUAACA CUGAUGAGGNNNNNNNNCCGAA AUUUGAAU 4339 1215 AAAUCUGUU AACACCUC 184 GAGGUGUU CUGAUGAGGNNNNNNNNCCGAA ACAGAUUU 4340 1216 AAUCUGUUA ACACCUCA 185 UGAGGUGU CUGAUGAGGNNNNNNNNCCGAA AACAGAUU 4341 1223 UAACACCUC AGUGCAUA 186 UAUGCACU CUGAUGAGGNNNNNNNNCCGAA AGGUGUUA 4342 1231 CAGUGCAUA UAUAUGAU 187 AUCAUAUA CUGAUGAGGNNNNNNNNCCGAA AUGCACUG 4343 1233 GUGCAUAUA UAUGAUAA 188 UUAUCAUA CUGAUGAGGNNNNNNNNCCGAA AUAUGCAC 4344 1235 GCAUAUAUA UGAUAAAG 189 CUUUAUCA CUGAUGAGGNNNNNNNNCCGAA AUAUAUGC 4345 1240 UAUAUGAUA AAGCAUUC 190 GAAUGCUU CUGAUGAGGNNNNNNNNCCGAA AUCAUAUA 4346 1247 UAAAGCAUU CAUCACUG 191 CAGUGAUG CUGAUGAGGNNNNNNNNCCGAA AUGCUUUA 4347 1248 AAAGCAUUC AUCACUGU 192 ACAGUGAU CUGAUGAGGNNNNNNNNCCGAA AAUGCUUU 4348 1251 GCAUUCAUC ACUGUGAA 193 UUCACAGU CUGAUGAGGNNNNNNNNCCGAA AUGAAUGC 4349 1264 UGAAACAUC GAAAACAG 194 CUGUUUUC CUGAUGAGGNNNNNNNNCCGAA AUGUUUCA 4350 1281 CAGGUGCUU GAAACCGU 195 ACGGUUUC CUGAUGAGGNNNNNNNNCCGAA AGCACCUG 4351 1290 GAAACCGUA GCUGGCAA 196 UUGCCAGC CUGAUGAGGNNNNNNNNCCGAA ACGGUUUC 4352 1304 CAAGCGGUC UUACCGGC 197 GCCGGUAA CUGAUGAGGNNNNNNNNCCGAA ACCGCUUG 4353 1306 AGCGGUCUU ACCGGCUC 198 GAGCCGGU CUGAUGAGGNNNNNNNNCCGAA AGACCGCU 4354 1307 GCGGUCUUA CCGGCUCU 199 AGAGCCGG CUGAUGAGGNNNNNNNNCCGAA AAGACCGC 4355 1314 UACCGGCUC UCUAUGAA 200 UUCAUAGA CUGAUGAGGNNNNNNNNCCGAA AGCCGGUA 4356 1316 CCGGCUCUC UAUGAAAG 201 CUUUCAUA CUGAUGAGGNNNNNNNNCCGAA AGAGCCGG 4357 1318 GGCUCUCUA UGAAAGUG 202 CACUUUCA CUGAUGAGGNNNNNNNNCCGAA AGAGAGCC 4358 1334 GAAGGCAUU UCCCUCGC 203 GCGAGGGA CUGAUGAGGNNNNNNNNCCGAA AUGCCUUC 4359 1335 AAGGCAUUU CCCUCGCC 204 GGCGAGGG CUGAUGAGGNNNNNNNNCCGAA AAUGCCUU 4360 1336 AGGCAUUUC CCUCGCCG 205 CGGCGAGG CUGAUGAGGNNNNNNNNCCGAA AAAUGCCU 4361 1340 AUUUCCCUC GCCGGAAG 206 CUUCCGGC CUGAUGAGGNNNNNNNNCCGAA AGGGAAAU 4362 1350 CCGGAAGUU GUAUGGUU 207 AACCAUAC CUGAUGAGGNNNNNNNNCCGAA ACUUCCGG 4363 1353 GAAGUUGUA UGGUUAAA 208 UUUAACCA CUGAUGAGGNNNNNNNNCCGAA ACAACUUC 4364 1358 UGUAUGGUU AAAAGAUG 209 CAUCUUUU CUGAUGAGGNNNNNNNNCCGAA ACCAUACA 4365 1359 GUAUGGUUA AAAGAUGG 210 CCAUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCAUAC 4366 1370 AGAUGGGUU ACCUGCGA 211 UCGCAGGU CUGAUGAGGNNNNNNNNCCGAA ACCCAUCU 4367 1371 GAUGGGUUA CCUGCGAC 212 GUCGCAGG CUGAUGAGGNNNNNNNNCCGAA AACCCAUC 4368 1388 UGAGAAAUC UGCUCGCU 213 AGCGAGCA CUGAUGAGGNNNNNNNNCCGAA AUUUCUCA 4369 1393 AAUCUGCUC GCUAUUUG 214 CAAAUAGC CUGAUGAGGNNNNNNNNCCGAA AGCAGAUU 4370 1397 UGCUCGCUA UUUGACUC 215 GAGUCAAA CUGAUGAGGNNNNNNNNCCGAA AGCGAGCA 4371 1399 CUCGCUAUU UGACUCGU 216 ACGAGUCA CUGAUGAGGNNNNNNNNCCGAA AUAGCGAG 4372 1400 UCGCUAUUU GACUCGUG 217 CACGAGUC CUGAUGAGGNNNNNNNNCCGAA AAUAGCGA 4373 1405 AUUUGACUC GUGGCUAC 218 GUAGCCAC CUGAUGAGGNNNNNNNNCCGAA AGUCAAAU 4374 1412 UCGUGGCUA CUCGUUAA 219 UUAACGAG CUGAUGAGGNNNNNNNNCCGAA AGCCACGA 4375 1415 UGGCUACUC GUUAAUUA 220 UAAUUAAC CUGAUGAGGNNNNNNNNCCGAA AGUAGCCA 4376 1418 CUACUCGUU AAUUAUCA 221 UGAUAAUU CUGAUGAGGNNNNNNNNCCGAA AGGAGUAG 4377 1419 UACUCGUUA AUUAUCAA 222 UUGAUAAU CUGAUGAGGNNNNNNNNCCGAA AACGAGUA 4378 1422 UCGUUAAUU AUCAAGGA 223 UCCUUGAU CUGAUGAGGNNNNNNNNCCGAA AUUAACGA 4379 1423 CGUUAAUUA UCAAGGAC 224 GUCCUUGA CUGAUGAGGNNNNNNNNCCGAA AAUUAACG 4380 1425 UUAAUUAUC AAGGACGU 225 ACGUCCUU CUGAUGAGGNNNNNNNNCCGAA AUAAUUAA 4381 1434 AAGGACGUA ACUGAAGA 226 UCUUCAGU CUGAUGAGGNNNNNNNNCCGAA ACGUCCUU 4382 1456 CAGGGAAUU AUACAAUC 227 GAUUGUAU CUGAUGAGGNNNNNNNNCCGAA AUUCCCUG 4383 1457 AGGGAAUUA UACAAUCU 228 AGAUUGUA CUGAUGAGGNNNNNNNNCCGAA AAUUCCCU 4384 1459 GGAAUUAUA CAAUCUUG 229 CAAGAUUG CUGAUGAGGNNNNNNNNCCGAA AUAAUUCC 4385 1464 UAUACAAUC UUGCUGAG 230 CUCAGCAA CUGAUGAGGNNNNNNNNCCGAA AUUGUAUA 4386 1466 UACAAUCUU GCUGAGCA 231 UGCUCAGC CUGAUGAGGNNNNNNNNCCGAA AGAUUGUA 4387 1476 CUGAGCAUA AAACAGUC 232 GACUGUUU CUGAUGAGGNNNNNNNNCCGAA AUGCUCAG 4388 1484 AAAACAGUC AAAUGUGU 233 ACACAUUU CUGAUGAGGNNNNNNNNCCGAA ACUGUUUU 4389 1493 AAAUGUGUU UAAAAACC 234 GGUUUUUA CUGAUGAGGNNNNNNNNCCGAA ACACAUUU 4390 1494 AAUGUGUUU AAAAACCU 235 AGGUUUUU CUGAUGAGGNNNNNNNNCCGAA AACACAUU 4391 1495 AUGUGUUUA AAAACCUC 236 GAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AAACACAU 4392 1503 AAAAACCUC ACUGCCAC 237 GUGGCAGU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU 4393 1513 CUGCCACUC UAAUUGUC 238 GACAAUUA CUGAUGAGGNNNNNNNNCCGAA AGUGGCAG 4394 1515 GCCACUCUA AUUGUCAA 239 UUGACAAU CUGAUGAGGNNNNNNNNCCGAA AGAGUGGC 4395 1518 ACUCUAAUU GUCAAUGU 240 ACAUUGAC CUGAUGAGGNNNNNNNNCCGAA AUUAGAGU 4396 1521 CUAAUUGUC AAUGUGAA 241 UUCACAUU CUGAUGAGGNNNNNNNNCCGAA ACAAUUAG 4397 1539 CCCCAGAUU UACGAAAA 242 UUUUCGUA CUGAUGAGGNNNNNNNNCCGAA AUCUGGGG 4398 1540 CCCAGAUUU ACGAAAAG 243 CUUUUCGU CUGAUGAGGNNNNNNNNCCGAA AAUCUGGG 4399 1541 CCAGAUUUA CGAAAAGG 244 CCUUUUCG CUGAUGAGGNNNNNNNNCCGAA AAAUCUGG 4400 1556 GGCCGUGUC AUCGUUUC 245 GAAACGAU CUGAUGAGGNNNNNNNNCCGAA ACACGGCC 4401 1559 CGUGUCAUC GUUUCCAG 246 CUGGAAAC CUGAUGAGGNNNNNNNNCCGAA AUGACACG 4402 1562 GUCAUCGUU UCCAGACC 247 GGUCUGGA CUGAUGAGGNNNNNNNNCCGAA ACGAUGAC 4403 1563 UCAUCGUUU CCAGACCC 248 GGGUCUGG CUGAUGAGGNNNNNNNNCCGAA AACGAUGA 4404 1564 CAUCGUUUC CAGACCCG 249 CGGGUCUG CUGAUGAGGNNNNNNNNCCGAA AAACGAUG 4405 1576 ACCCGGCUC UCUACCCA 250 UGGGUAGA CUGAUGAGGNNNNNNNNCCGAA AGCCGGGU 4406 1578 CCGGCUCUC UACCCACU 251 AGUGGGUA CUGAUGAGGNNNNNNNNCCGAA AGAGCCGG 4407 1580 GGCUCUCUA CCCACUGG 252 CCAGUGGG CUGAUGAGGNNNNNNNNCCGAA AGAGAGCC 4408 1602 AGACAAAUC CUGACUUG 253 CAAGUCAG CUGAUGAGGNNNNNNNNCCGAA AUUUGUCU 4409 1609 UCCUGACUU GUACCGCA 254 UGCGGUAC CUGAUGAGGNNNNNNNNCCGAA AGUCAGGA 4410 1612 UGACUUGUA CCGCAUAU 255 AUAUGCGG CUGAUGAGGNNNNNNNNCCGAA ACAAGUCA 4411 1619 UACCGCAUA UGGUAUCC 256 GGAUACCA CUGAUGAGGNNNNNNNNCCGAA AUGCGGUA 4412 1624 CAUAUGGUA UCCCUCAA 257 UUGAGGGA CUGAUGAGGNNNNNNNNCCGAA ACCAUAUG 4413 1626 UAUGGUAUC CCUCAACC 258 GGUUGAGG CUGAUGAGGNNNNNNNNCCGAA AUACCAUA 4414 1630 GUAUCCCUC AACCUACA 259 UGUAGGUU CUGAUGAGGNNNNNNNNCCGAA AGGGAUAC 4415 1636 CUCAACCUA CAAUCAAG 260 CUUGAUUG CUGAUGAGGNNNNNNNNCCGAA AGGUUGAG 4416 1641 CCUACAAUC AAGUGGUU 261 AACCACUU CUGAUGAGGNNNNNNNNCCGAA AUUGUAGG 4417 1649 CAAGUGGUU CUGGCACC 262 GGUGCCAG CUGAUGAGGNNNNNNNNCCGAA ACCACUUG 4418 1650 AAGUGGUUC UGGCACCC 263 GGGUGCCA CUGAUGAGGNNNNNNNNCCGAA AACCACUU 4419 1663 ACCCCUGUA ACCAUAAU 264 AUUAUGGU CUGAUGAGGNNNNNNNNCCGAA ACAGGGGU 4420 1669 GUAACCAUA AUCAUUCC 265 GGAAUGAU CUGAUGAGGNNNNNNNNCCGAA AUGGUUAC 4421 1672 ACCAUAAUC AUUCCGAA 266 UUCGGAAU CUGAUGAGGNNNNNNNNCCGAA AUUAUGGU 4422 1675 AUAAUCAUU CCGAAGCA 267 UGCUUCGG CUGAUGAGGNNNNNNNNCCGAA AUGAUUAU 4423 1676 UAAUCAUUC CGAAGCAA 268 UUGCUUCG CUGAUGAGGNNNNNNNNCCGAA AAUGAUUA 4424 1694 GUGUGACUU UUGUUCCA 269 UGGAACAA CUGAUGAGGNNNNNNNNCCGAA AGUCACAC 4425 1695 UGUGACUUU UGUUCCAA 270 UUGGAACA CUGAUGAGGNNNNNNNNCCGAA AAGUCACA 4426 1696 GUGACUUUU GUUCCAAU 271 AUUGGAAC CUGAUGAGGNNNNNNNNCCGAA AAAGUCAC 4427 1699 ACUUUUGUU CCAAUAAU 272 AUUAUUGG CUGAUGAGGNNNNNNNNCCGAA ACAAAAGU 4428 1700 CUUUUGUUC CAAUAAUG 273 CAUUAUUG CUGAUGAGGNNNNNNNNCCGAA AACAAAAG 4429 1705 GUUCCAAUA AUGAAGAG 274 CUCUUCAU CUGAUGAGGNNNNNNNNCCGAA AUUGGAAC 4430 1715 UGAAGAGUC CUUUAUCC 275 GGAUAAAG CUGAUGAGGNNNNNNNNCCGAA ACUCUUCA 4431 1718 AGAGUCCUU UAUCCUGG 276 CCAGGAUA CUGAUGAGGNNNNNNNNCCGAA AGGACUCU 4432 1719 GAGUCCUUU AUCCUGGA 277 UCCAGGAU CUGAUGAGGNNNNNNNNCCGAA AAGGACUC 4433 1720 AGUCCUUUA UCCUGGAU 278 AUCCAGGA CUGAUGAGGNNNNNNNNCCGAA AAAGGACU 4434 1722 UCCUUUAUC CUGGAUGC 279 GCAUCCAG CUGAUGAGGNNNNNNNNCCGAA AUAAAGGA 4435 1755 AACAGAAUU GAGAGCAU 280 AUGCUCUC CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU 4436 1764 GAGAGCAUC ACUCAGCG 281 CGCUGAGU CUGAUGAGGNNNNNNNNCCGAA AUGCUCUC 4437 1768 GCAUCACUC AGCGCAUG 282 CAUGCGCU CUGAUGAGGNNNNNNNNCCGAA AGUGAUGC 4438 1782 AUGGCAAUA AUAGAAGG 283 CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA AUUGCCAU 4439 1785 GCAAUAAUA GAAGGAAA 284 UUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAUUGC 4440 1798 GAAAGAAUA AGAUGGCU 285 AGCCAUCU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC 4441 1807 AGAUGGCUA GCACCUUG 286 CAAGGUGC CUGAUGAGGNNNNNNNNCCGAA AGCCAUCU 4442 1814 UAGCACCUU GGUUGUGG 287 CCACAACC CUGAUGAGGNNNNNNNNCCGAA AGGUGCUA 4443 1818 ACCUUGGUU GUGGCUGA 288 UCAGCCAC CUGAUGAGGNNNNNNNNCCGAA ACCAAGGU 4444 1829 GGCUGACUC UAGAAUUU 289 AAAUUCUA CUGAUGAGGNNNNNNNNCCGAA AGUCAGCC 4445 1831 CUGACUCUA GAAUUUCU 290 AGAAAUUC CUGAUGAGGNNNNNNNNCCGAA AGAGUCAG 4446 1836 UCUAGAAUU UCUGGAAU 291 AUUCCAGA CUGAUGAGGNNNNNNNNCCGAA AUUCUAGA 4447 1837 CUAGAAUUU CUGGAAUC 292 GAUUCCAG CUGAUGAGGNNNNNNNNCCGAA AAUUCUAG 4448 1838 UAGAAUUUC UGGAAUCU 293 AGAUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUUCUA 4449 1845 UCUGGAAUC UACAUUUG 294 CAAAUGUA CUGAUGAGGNNNNNNNNCCGAA AUUCCAGA 4450 1847 UGGAAUCUA CAUUUGCA 295 UGCAAAUG CUGAUGAGGNNNNNNNNCCGAA AGAUUCCA 4451 1851 AUCUACAUU UGCAUAGC 296 GCUAUGCA CUGAUGAGGNNNNNNNNCCGAA AUGUAGAU 4452 1852 UCUACAUUU GCAUAGCU 297 AGCUAUGC CUGAUGAGGNNNNNNNNCCGAA AAUGUAGA 4453 1857 AUUUGCAUA GCUUCCAA 298 UUGGAAGC CUGAUGAGGNNNNNNNNCCGAA AUGCAAAU 4454 1861 GCAUAGCUU CCAAUAAA 299 UUUAUUGG CUGAUGAGGNNNNNNNNCCGAA AGCUAUGC 4455 1862 CAUAGCUUC CAAUAAAG 300 GUUUAUUG CUGAUGAGGNNNNNNNNCCGAA AAGCUAUG 4456 1867 CUUCCAAUA AAGUUGGG 301 GCCAACUU CUGAUGAGGNNNNNNNNCCGAA AUUGGAAG 4457 1872 AAUAAAGUU GGGACUGU 302 ACAGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUUUAUU 4458 1893 AGAAACAUA AGCUUUUA 303 UAAAAGCU CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU 4459 1898 CAUAAGCUU UUAUAUCA 304 UGAUAUAA CUGAUGAGGNNNNNNNNCCGAA AGCUUAUG 4460 1899 AUAAGCUUU UAUAUCAC 305 GUGAUAUA CUGAUGAGGNNNNNNNNCCGAA AAGCUUAU 4461 1900 UAAGCUUUU AUAUCACA 306 UGUGAUAU CUGAUGAGGNNNNNNNNCCGAA AAAGCUUA 4462 1901 AAGCUUUUA UAUCACAG 307 CUGUGAUA CUGAUGAGGNNNNNNNNCCGAA AAAAGCUU 4463 1903 GCUUUUAUA UCACAGAU 308 AUCUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAAAAGC 4464 1905 UUUUAUAUC ACAGAUGU 309 ACAUCUGU CUGAUGAGGNNNNNNNNCCGAA AUAUAAAA 4465 1925 AAAUGGGUU UCAUGUUA 310 UAACAUGA CUGAUGAGGNNNNNNNNCCGAA ACCCAUUU 4466 1926 AAUGGGUUU CAUGUUAA 311 UUAACAUG CUGAUGAGGNNNNNNNNCCGAA AACCCAUU 4467 1927 AUGGGUUUC AUGUUAAC 312 GUUAACAU CUGAUGAGGNNNNNNNNCCGAA AAACCCAU 4468 1932 UUUCAUGUU AACUUGGA 313 UCCAAGUU CUGAUGAGGNNNNNNNNCCGAA ACAUGAAA 4469 1933 UUCAUGUUA ACUUGGAA 314 UUCCAAGU CUGAUGAGGNNNNNNNNCCGAA AACAUGAA 4470 1937 UGUUAACUU GGAAAAAA 315 UUUUUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUAACA 4471 1976 GAAACUGUC UUGCACAG 316 CUGUGCAA CUGAUGAGGNNNNNNNNCCGAA ACAGUUUC 4472 1978 AACUGUCUU GCACAGUU 317 AACUGUGC CUGAUGAGGNNNNNNNNCCGAA AGACAGUU 4473 1986 UGCACAGUU AACAAGUU 318 AACUUGUU CUGAUGAGGNNNNNNNNCCGAA ACUGUGCA 4474 1987 GCACAGUUA ACAAGUUC 319 GAACUUGU CUGAUGAGGNNNNNNNNCCGAA AACUGUGC 4475 1994 UAACAAGUU CUUAUACA 320 UGUAUAAG CUGAUGAGGNNNNNNNNCCGAA ACUUGUUA 4476 1995 AACAAGUUC UUAUACAG 321 CUGUAUAA CUGAUGAGGNNNNNNNNCCGAA AACUUGUU 4477 1997 CAAGUUCUU AUACAGAG 322 CUCUGUAU CUGAUGAGGNNNNNNNNCCGAA AGAACUUG 4478 1998 AAGUUCUUA UACAGAGA 323 UCUCUGUA CUGAUGAGGNNNNNNNNCCGAA AAGAACUU 4479 2000 GUUCUUAUA CAGAGACG 324 CGUCUCUG CUGAUGAGGNNNNNNNNCCGAA AUAAGAAC 4480 2010 AGAGACGUU ACUUGGAU 325 AUCCAAGU CUGAUGAGGNNNNNNNNCCGAA ACGUCUCU 4481 2011 GAGACGUUA CUUGGAUU 326 AAUCCAAG CUGAUGAGGNNNNNNNNCCGAA AACGUCUC 4482 2014 ACGUUACUU GGAUUUUA 327 UAAAAUCC CUGAUGAGGNNNNNNNNCCGAA AGUAACGU 4483 2019 ACUUGGAUU UUACUGCG 328 CGCAGUAA CUGAUGAGGNNNNNNNNCCGAA AUCCAAGU 4484 2020 CUUGGAUUU UACUGCGG 329 CCGCAGUA CUGAUGAGGNNNNNNNNCCGAA AAUCCAAG 4485 2021 UUGGAUUUU ACUGCGGA 330 UCCGCAGU CUGAUGAGGNNNNNNNNCCGAA AAAUCCAA 4486 2022 UGGAUUUUA CUGCGGAC 331 GUCCGCAG CUGAUGAGGNNNNNNNNCCGAA AAAAUCCA 4487 2034 CGGACAGUU AAUAACAG 332 CUGUUAUU CUGAUGAGGNNNNNNNNCCGAA ACUGUCCG 4488 2035 GGACAGUUA AUAACAGA 333 UCUGUUAU CUGAUGAGGNNNNNNNNCCGAA AACUGUCC 4489 2038 CAGUUAAUA ACAGAACA 334 UGUUCUGU CUGAUGAGGNNNNNNNNCCGAA AUUAACUG 4490 2054 AAUGCACUA CAGUAUUA 335 UAAUACUG CUGAUGAGGNNNNNNNNCCGAA AGUGCAUU 4491 2059 ACUACAGUA UUAGCAAG 336 CUUGCUAA CUGAUGAGGNNNNNNNNCCGAA ACUGUAGU 4492 2061 UACAGUAUU AGCAAGCA 337 UGCUUGCU CUGAUGAGGNNNNNNNNCCGAA AUACUGUA 4493 2062 ACAGUAUUA GCAAGCAA 338 UUGCUUGC CUGAUGAGGNNNNNNNNCCGAA AAUACUGU 4494 2082 AUGGCCAUC ACUAAGGA 339 UCCUUAGU CUGAUGAGGNNNNNNNNCCGAA AUGGCCAU 4495 2086 CCAUCACUA AGGAGGAC 340 GUGCUCCU CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG 4496 2096 GGAGCACUC CAUCACUC 341 GAGUGAUG CUGAUGAGGNNNNNNNNCCGAA AGUGCUCC 4497 2100 CACUCCAUC ACUCUUAA 342 UUAAGAGU CUGAUGAGGNNNNNNNNCCGAA AUGGAGUG 4498 2104 CCAUCACUC UUAAUCUU 343 AAGAUUAA CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG 4499 2106 AUCACUCUU AAUCUUAC 344 GUAAGAUU CUGAUGAGGNNNNNNNNCCGAA AGAGUGAU 4500 2107 UCACUCUUA AUCUUACC 345 GGUAAGAU CUGAUGAGGNNNNNNNNCCGAA AAGAGUGA 4501 2110 CUCUUAAUC UUACCAUC 346 GAUGGUAA CUGAUGAGGNNNNNNNNCCGAA AUUAAGAG 4502 2112 CUUAAUCUU ACCAUCAU 347 AUGAUGGU CUGAUGAGGNNNNNNNNCCGAA AGAUUAAG 4503 2113 UUAAUCUUA CCAUCAUG 348 CAUGAUGG CUGAUGAGGNNNNNNNNCCGAA AAGAUUAA 4504 2118 CUUACCAUC AUGAAUGU 349 ACAUUCAU CUGAUGAGGNNNNNNNNCCGAA AUGGUAAG 4505 2127 AUGAAUGUU UCCCUGCA 350 UGCAGGGA CUGAUGAGGNNNNNNNNCCGAA ACAUUCAU 4506 2128 UGAAUGUUU CCCUGCAA 351 UUGCAGGG CUGAUGAGGNNNNNNNNCCGAA AACAUUCA 4507 2129 GAAUGUUUC CCUGCAAG 352 CUUGCAGG CUGAUGAGGNNNNNNNNCCGAA AAACAUUC 4508 2140 UGCAAGAUU CAGGCACC 353 GGUGCCUG CUGAUGAGGNNNNNNNNCCGAA AUCUUGCA 4509 2141 GCAAGAUUC AGGCACCU 354 AGGUGCCU CUGAUGAGGNNNNNNNNCCGAA AAUCUUGC 4510 2150 AGGCACCUA UGCCUGCA 355 UGCAGGCA CUGAUGAGGNNNNNNNNCCGAA AGGUGCCU 4511 2172 AGGAAUGUA UACACAGG 356 CCUGUGUA CUGAUGAGGNNNNNNNNCCGAA ACAUUCCU 4512 2174 GAAUGUAUA CACAGGGG 357 CCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUACAUUC 4513 2190 GAAGAAAUC CUCCAGAA 358 UUCUGGAG CUGAUGAGGNNNNNNNNCCGAA AUUUCUUC 4514 2193 GAAAUCCUC CAGAAGAA 359 UUCUUCUG CUGAUGAGGNNNNNNNNCCGAA AGGAUUUC 4515 2208 AAAGAAAUU ACAAUCAG 360 CUGAUUGU CUGAUGAGGNNNNNNNNCCGAA AUUUCUUU 4516 2209 AAGAAAUUA CAAUCAGA 361 UCUGAUUG CUGAUGAGGNNNNNNNNCCGAA AAUUUCUU 4517 2214 AUUACAAUC AGAGAUCA 362 UGAUCUCU CUGAUGAGGNNNNNNNNCCGAA AUUGUAAU 4518 2221 UCAGAGAUC AGGAAGCA 363 UGCUUCCU CUGAUGAGGNNNNNNNNCCGAA AUCUCUGA 4519 2234 AGCACCAUA CCUCCUGC 364 GCAGGAGG CUGAUGAGGNNNNNNNNCCGAA AUGGUGCU 4520 2238 CCAUACCUC CUGCGAAA 365 UUUCGCAG CUGAUGAGGNNNNNNNNCCGAA AGGUAUGG 4521 2250 CGAAACCUC AGUGAUCA 366 UGAUCACU CUGAUGAGGNNNNNNNNCCGAA AGGUUUCG 4522 2257 UCAGUGAUC ACACAGUG 367 CACUGUGU CUGAUGAGGNNNNNNNNCCGAA AUCACUGA 4523 2271 GUGGCCAUC AGCAGUUC 368 GAACUGCU CUGAUGAGGNNNNNNNNCCGAA AUGGCCAC 4524 2278 UCAGCAGUU CCACCACU 369 AGUGGUGG CUGAUGAGGNNNNNNNNCCGAA ACUGCUGA 4525 2279 CAGCAGUUC CACCACUU 370 AAGUGGUG CUGAUGAGGNNNNNNNNCCGAA AACUGCUG 4526 2287 CCACCACUU UAGACUGU 371 ACAGUCUA CUGAUGAGGNNNNNNNNCCGAA AGUGGUGG 4527 2288 CACCACUUU AGACUGUC 372 GACAGUCU CUGAUGAGGNNNNNNNNCCGAA AAGUGGUG 4528 2289 ACCACUUUA GACUGUCA 373 UGACAGUC CUGAUGAGGNNNNNNNNCCGAA AAAGUGGU 4529 2296 UAGACUGUC AUGCUAAU 374 AUUAGCAU CUGAUGAGGNNNNNNNNCCGAA ACAGUCUA 4530 2302 GUCAUGCUA AUGGUGUC 375 GACACCAU CUGAUGAGGNNNNNNNNCCGAA AGCAUGAC 4531 2310 AAUGGUGUC CCCGAGCC 376 GGCUCGGG CUGAUGAGGNNNNNNNNCCGAA ACACCAUU 4532 2320 CCGAGCCUC AGAUCACU 377 AGUGAUCU CUGAUGAGGNNNNNNNNCCGAA AGGCUCGG 4533 2325 CCUCAGAUC ACUUGGUU 378 AACCAAGU CUGAUGAGGNNNNNNNNCCGAA AUCUGAGG 4534 2329 AGAUCACUU GGUUUAAA 379 UUUAAACC CUGAUGAGGNNNNNNNNCCGAA AGUGAUCU 4535 2333 CACUUGGUU UAAAAACA 380 UGUUUUUA CUGAUGAGGNNNNNNNNCCGAA ACCAAGUG 4536 2334 ACUUGGUUU AAAAACAA 381 UUGUUUUU CUGAUGAGGNNNNNNNNCCGAA AACCAAGU 4537 2335 CUUGGUUUA AAAACAAC 382 GUUGUUUU CUGAUGAGGNNNNNNNNCCGAA AAACCAAG 4538 2352 CACAAAAUA CAACAAGA 383 UCUUGUUG CUGAUGAGGNNNNNNNNCCGAA AUUUUGUG 4539 2370 CCUGGAAUU AUUUUAGG 384 CCUAAAAU CUGAUGAGGNNNNNNNNCCGAA AUUCCAGG 4540 2371 CUGGAAUUA UUUUAGGA 385 UCCUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAG 4541 2373 GGAAUUAUU UUAGGACC 386 GGUCCUAA CUGAUGAGGNNNNNNNNCCGAA AUAAUUCC 4542 2374 GAAUUAUUU UAGGACCA 387 UGGUCCUA CUGAUGAGGNNNNNNNNCCGAA AAUAAUUC 4543 2375 AAUUAUUUU AGGACCAG 388 CUGGUCCU CUGAUGAGGNNNNNNNNCCGAA AAAUAAUU 4544 2376 AUUAUUUUA GGACCAGG 389 CCUGGUCC CUGAUGAGGNNNNNNNNCCGAA AAAAUAAU 4545 2399 CACGCUGUU UAUUGAAA 390 UUUCAAUA CUGAUGAGGNNNNNNNNCCGAA ACAGCGUG 4546 2400 ACGCUGUUU AUUGAAAG 391 CUUUCAAU CUGAUGAGGNNNNNNNNCCGAA AACAGCGU 4547 2401 CGCUGUUUA UUGAAAGA 392 UCUUUCAA CUGAUGAGGNNNNNNNNCCGAA AAACAGCG 4548 2403 CUGUUUAUU GAAAGAGU 393 ACUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUAAACAG 4549 2412 GAAAGAGUC ACAGAAGA 394 UCUUCUGU CUGAUGAGGNNNNNNNNCCGAA ACUCUUUC 4550 2433 GAAGGUGUC UAUCACUG 395 CAGUGAUA CUGAUGAGGNNNNNNNNCCGAA ACACCUUC 4551 2435 AGGUGUCUA UCACUGGA 396 UGGAGUGA CUGAUGAGGNNNNNNNNCCGAA AGACACCU 4552 2437 GUGUCUAUC ACUGCAAA 397 UUUGCAGU CUGAUGAGGNNNNNNNNCCGAA AUAGACAC 4553 2465 GAAGGGCUC UGUGGAAA 398 UUUCCACA CUGAUGAGGNNNNNNNNCCGAA AGCCCUUC 4554 2476 UGGAAAGUU CAGCAUAC 399 GUAUGCUG CUGAUGAGGNNNNNNNNCCGAA ACUUUCCA 4555 2477 GGAAAGUUC AGCAUACC 400 GGUAUGCU CUGAUGAGGNNNNNNNNCCGAA AACUUUCC 4556 2483 UUCAGCAUA CCUCACUG 401 CAGUGAGG CUGAUGAGGNNNNNNNNCCGAA AUGCUGAA 4557 2487 GCAUACCUC ACUGUUCA 402 UGAACAGU CUGAUGAGGNNNNNNNNCCGAA AGGUAUGC 4558 2493 CUCACUGUU CAAGGAAC 403 GUUCCUUG CUGAUGAGGNNNNNNNNCCGAA ACAGUGAG 4559 2494 UCACUGUUC AAGGAACC 404 GGUUCCUU CUGAUGAGGNNNNNNNNCCGAA AACAGUGA 4560 2504 AGGAACCUC GGACAAGU 405 ACUUGUCC CUGAUGAGGNNNNNNNNCCGAA AGGUUCCU 4561 2513 GGACAAGUC UAAUCUGG 406 CCAGAUUA CUGAUGAGGNNNNNNNNCCGAA ACUUGUCC 4562 2515 ACAAGUCUA AUCUGGAG 407 CUCCAGAU CUGAUGAGGNNNNNNNNCCGAA AGACUUGU 4563 2518 AGUCUAAUC UGGAGCUG 408 CAGCUCCA CUGAUGAGGNNNNNNNNCCGAA AUUAGACU 4564 2529 GAGCUGAUC ACUCUAAC 409 GUUAGAGU CUGAUGAGGNNNNNNNNCCGAA AUCAGCUC 4565 2533 UGAUCACUC UAACAUGC 410 GCAUGUUA CUGAUGAGGNNNNNNNNCCGAA AGUGAUCA 4566 2535 AUCACUCUA ACAUGCAC 411 GUGCAUGU CUGAUGAGGNNNNNNNNCCGAA AGAGUGAU 4567 2560 CUGCGACUC UCUUCUGG 412 CCAGAAGA CUGAUGAGGNNNNNNNNCCGAA AGUCGCAG 4568 2562 GCGACUCUC UUCUGGCU 413 AGCCAGAA CUGAUGAGGNNNNNNNNCCGAA AGAGUCGC 4569 2564 GACUCUCUU CUGGCUCC 414 GGAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGAGAGUC 4570 2565 ACUCUCUUC UGGCUCCU 415 AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU 4571 2571 UUCUGGCUC CUAUUAAC 416 GUUAAUAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGAA 4572 2574 UGGCUCCUA UUAACCCU 417 AGGGUUAA CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA 4573 2576 GCUCCUAUU AACCCUCC 418 GGAGGGUU CUGAUGAGGNNNNNNNNCCGAA AUAGGAGC 4574 2577 CUCCUAUUA ACCCUCCU 419 AGGAGGGU CUGAUGAGGNNNNNNNNCCGAA AAUAGGAG 4575 2583 UUAACCCUC CUUAUCCG 420 CGGAUAAG CUGAUGAGGNNNNNNNNCCGAA AGGGUUAA 4576 2586 ACCCUCCUU AUCCGAAA 421 UUUCGGAU CUGAUGAGGNNNNNNNNCCGAA AGGAGGGU 4577 2587 CCCUCCUUA UCCGAAAA 422 UUUUCGGA CUGAUGAGGNNNNNNNNCCGAA AAGGAGGG 4578 2589 CUCCUUAUC CGAAAAAU 423 AUUUUUCG CUGAUGAGGNNNNNNNNCCGAA AUAAGGAG 4579 2606 GAAAAGGUC UUCUUCUG 424 CAGAAGAA CUGAUGAGGNNNNNNNNCCGAA ACCUUUUC 4580 2608 AAAGGUCUU CUUCUGAA 425 UUCAGAAG CUGAUGAGGNNNNNNNNCCGAA AGACCUUU 4581 2609 AAGGUCUUC UUCUGAAA 426 UUUCAGAA CUGAUGAGGNNNNNNNNCCGAA AAGACCUU 4582 2611 GGUCUUCUU CUGAAAUA 427 UAUUUCAG CUGAUGAGGNNNNNNNNCCGAA AGAAGACC 4583 2612 GUCUUCUUC UGAAAUAA 428 UUAUUUCA CUGAUGAGGNNNNNNNNCCGAA AAGAAGAC 4584 2619 UCUGAAAUA AAGACUGA 429 UCAGUCUU CUGAUGAGGNNNNNNNNCCGAA AUUUCAGA 4585 2630 GACUGACUA CCUAUCAA 430 UUGAUAGG CUGAUGAGGNNNNNNNNCCGAA AGUCAGUC 4586 2634 GACUACCUA UCAAUUAU 431 AUAAUUGA CUGAUGAGGNNNNNNNNCCGAA AGGUAGUC 4587 2636 CUACCUAUC AAUUAUAA 432 UUAUAAUU CUGAUGAGGNNNNNNNNCCGAA AUAGGUAG 4588 2640 CUAUCAAUU AUAAUGGA 433 UCCAUUAU CUGAUGAGGNNNNNNNNCCGAA AUUGAUAG 4589 2641 UAUCAAUUA UAAUGGAC 434 GUCCAUUA CUGAUGAGGNNNNNNNNCCGAA AAUUGAUA 4590 2643 UCAAUUAUA AUGGACCC 435 GGGUCCAU CUGAUGAGGNNNNNNNNCCGAA AUAAUUGA 4591 2661 GAUGAAGUU CCUUUGGA 436 UCCAAAGG CUGAUGAGGNNNNNNNNCCGAA ACUUCAUC 4592 2662 AUGAAGUUC CUUUGGAU 437 AUCCAAAG CUGAUGAGGNNNNNNNNCCGAA AACUUCAU 4593 2665 AAGUUCCUU UGGAUGAG 438 CUCAUCCA CUGAUGAGGNNNNNNNNCCGAA AGGAACUU 4594 2666 AGUUCCUUU GGAUGAGC 439 GCUCAUCC CUGAUGAGGNNNNNNNNCCGAA AAGGAACU 4595 2688 GAGCGGCUC CCUUAUGA 440 UCAUAAGG CUGAUGAGGNNNNNNNNCCGAA AGCCGCUC 4596 2692 GGCUCCCUU AUGAUGCC 441 GGCAUCAU CUGAUGAGGNNNNNNNNCCGAA AGGGAGCC 4597 2693 GCUCCCUUA UGAUGCCA 442 UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AAGGGAGC 4598 2714 GUGGGAGUU UGCCCGGG 443 CCCGGGCA CUGAUGAGGNNNNNNNNCCGAA ACUCCCAC 4599 2715 UGGGAGUUU GCCCGGGA 444 UCCCGGGC CUGAUGAGGNNNNNNNNCCGAA AACUCCCA 4600 2730 GAGAGACUU AAACUGGG 445 CCCAGUUU GUGAUGAGGNNNNNNNNCCGAA AGUCUCUC 4601 2731 AGAGACUUA AACUGGGC 446 GCCCAGUU CUGAUGAGGNNNNNNNNCCGAA AAGUCUCU 4602 2744 GGGCAAAUC ACUUGGAA 447 UUCCAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUGCCC 4603 2748 AAAUCACUU GGAAGAGG 448 CCUCUUCC CUGAUGAGGNNNNNNNNCCGAA AGUGAUUU 4604 2761 GAGGGGCUU UUGGAAAA 449 UUUUCCAA CUGAUGAGGNNNNNNNNCCGAA AGCCCCUC 4605 2762 AGGGGCUUU UGGAAAAG 450 CUUUUCCA CUGAUGAGGNNNNNNNNCCGAA AAGCCCCU 4606 2763 GGGGCUUUU GGAAAAGU 451 ACUUUUCC CUGAUGAGGNNNNNNNNCCGAA AAAGCCCC 4607 2775 AAAGUGGUU CAAGCAUC 452 GAUGCUUG CUGAUGAGGNNNNNNNNCCGAA ACCACUUU 4608 2776 AAGUGGUUC AAGCAUCA 453 UGAUGCUU CUGAUGAGGNNNNNNNNCCGAA AACCACUU 4609 2783 UCAAGCAUC AGCAUUUG 454 CAAAUGCU CUGAUGAGGNNNNNNNNCCGAA AUGCUUGA 4610 2789 AUCAGCAUU UGGCAUUA 455 UAAUGCCA CUGAUGAGGNNNNNNNNCCGAA AUGCUGAU 4611 2790 UCAGCAUUU GGCAUUAA 456 UUAAUGCC CUGAUGAGGNNNNNNNNCCGAA AAUGCUGA 4612 2796 UUUGGCAUU AAGAAAUC 457 GAUUUCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCAAA 4613 2797 UUGGCAUUA AGAAAUCA 458 UGAUUUCU CUGAUGAGGNNNNNNNNCCGAA AAUGCCAA 4614 2804 UAAGAAAUC ACCUACGU 459 ACGUAGGU CUGAUGAGGNNNNNNNNCCGAA AUUUCUUA 4615 2809 AAUCACCUA CGUGCCGG 460 CCGGCACG CUGAUGAGGNNNNNNNNCCGAA AGGUGAUU 4616 2864 CAGCGAGUA CAAAGCUC 461 GAGCUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCGCUG 4617 2872 ACAAAGCUC UGAUGACU 462 AGUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUUGU 4618 2886 ACUGAGCUA AAAAUCUU 463 AAGAUUUU CUGAUGAGGNNNNNNNNCCGAA AGCUCAGU 4619 2892 CUAAAAAUC UUGACCCA 464 UGGGUCAA CUGAUGAGGNNNNNNNNCCGAA AUUUUUAG 4620 2894 AAAAAUCUU GACCCACA 465 UGUGGGUC CUGAUGAGGNNNNNNNNCCGAA AGAUUUUU 4621 2904 ACCCACAUU GGCCACCA 466 UGGUGGCC CUGAUGAGGNNNNNNNNCCGAA AUGUGGGU 4622 2914 GCCACCAUC UGAACGUG 467 CACGUUCA CUGAUGAGGNNNNNNNNCCGAA AUGGUGGC 4623 2925 AACGUGGUU AACCUGCU 468 AGCAGGUU CUGAUGAGGNNNNNNNNCCGAA ACCACGUU 4624 2926 ACGUGGUUA ACCUGCUG 469 CAGCAGGU CUGAUGAGGNNNNNNNNCCGAA AACCACGU 4625 2962 GAGGGCCUC UGAUGGUG 470 CACCAUCA CUGAUGAGGNNNNNNNNCCGAA AGGCCCUC 4626 2973 AUGGUGAUU GUUGAAUA 471 UAUUCAAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU 4627 2976 GUGAUUGUU GAAUACUG 472 CAGUAUUC CUGAUGAGGNNNNNNNNCCGAA ACAAUCAC 4628 2981 UGUUGAAUA CUGCAAAU 473 AUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCAACA 4629 2990 CUGCAAAUA UGGAAAUC 474 GAUUUCCA CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG 4630 2998 AUGGAAAUC UCUCCAAC 475 GUUGGAGA CUGAUGAGGNNNNNNNNCCGAA AUUUCCAU 4631 3000 GGAAAUCUC UCCAACUA 476 UAGUUGGA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCC 4632 3002 AAAUCUCUC CAACUACC 477 GGUAGUUG CUGAUGAGGNNNNNNNNCCGAA AGAGAUUU 4633 3008 CUCCAACUA CCUCAAGA 478 UCUUGAGG CUGAUGAGGNNNNNNNNCCGAA AGUUGGAG 4634 3012 AACUACCUC AAGAGCAA 479 UUGCUCUU CUGAUGAGGNNNNNNNNCCGAA AGGUAGUU 4635 3029 ACGUGACUU AUUUUUUC 480 GAAAAAAU CUGAUGAGGNNNNNNNNCCGAA AGUCACGU 4636 3030 CGUGACUUA UUUUUUCU 481 AGAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGUCACG 4637 3032 UGACUUAUU UUUUCUCA 482 UGAGAAAA CUGAUGAGGNNNNNNNNCCGAA AUAAGUCA 4638 3033 GACUUAUUU UUUCUCAA 483 UUGAGAAA CUGAUGAGGNNNNNNNNCCGAA AAUAAGUC 4639 3034 ACUUAUUUU UUCUCAAC 484 GUUGAGAA CUGAUGAGGNNNNNNNNCCGAA AAAUAAGU 4640 3035 CUUAUUUUU UCUCAACA 485 UGUUGAGA CUGAUGAGGNNNNNNNNCCGAA AAAAUAAG 4641 3036 UUAUUUUUU CUCAACAA 486 UUGUUGAG CUGAUGAGGNNNNNNNNCCGAA AAAAAUAA 4642 3037 UAUUUUUUC UCAACAAG 487 CUUGUUGA CUGAUGAGGNNNNNNNNCCGAA AAAAAAUA 4643 3039 UUUUUUCUC AACAAGGA 488 UCCUUGUU CUGAUGAGGNNNNNNNNCCGAA AGAAAAAA 4644 3057 GCAGCACUA CACAUGGA 489 UCCAUGUG CUGAUGAGGNNNNNNNNCCGAA AGUGCUGC 4645 3070 UGGAGCCUA AGAAAGAA 490 UUCUUUCU CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA 4646 3120 CCAAGACUA GAUAGCGU 491 ACGCUAUC CUGAUGAGGNNNNNNNNCCGAA AGUCUUGG 4647 3124 GACUAGAUA GCGUCACC 492 GGUGACGC CUGAUGAGGNNNNNNNNCCGAA AUCUAGUC 4648 3129 GAUAGCGUC ACCAGCAG 493 CUGCUGGU CUGAUGAGGNNNNNNNNCCGAA ACGCUAUC 4649 3146 CGAAAGCUU UGCGAGCU 494 AGCUCGCA CUGAUGAGGNNNNNNNNCCGAA AGCUUUCG 4650 3147 GAAAGCUUU GCGAGCUC 495 GAGCUCGC CUGAUGAGGNNNNNNNNCCGAA AAGCUUUC 4651 3155 UGCGAGCUC CGGCUUUC 496 GAAAGCCG CUGAUGAGGNNNNNNNNCCGAA AGCUCGCA 4652 3161 CUCCGGCUU UCAGGAAG 497 CUUCCUGA CUGAUGAGGNNNNNNNNCCGAA AGCCGGAG 4653 3162 UCCGGCUUU CAGGAAGA 498 UCUUCCUG CUGAUGAGGNNNNNNNNCCGAA AAGCCGGA 4654 3163 CCGGCUUUC AGGAAGAU 499 AUCUUCCU CUGAUGAGGNNNNNNNNCCGAA AAAGCCGG 4655 3172 AGGAAGAUA AAAGUCUG 500 CAGACUUU CUGAUGAGGNNNNNNNNCCGAA AUCUUCCU 4656 3178 AUAAAAGUC UGAGUGAU 501 AUCACUCA CUGAUGAGGNNNNNNNNCCGAA ACUUUUAU 4657 3189 AGUGAUGUU GAGGAAGA 502 UCUUCCUC CUGAUGAGGNNNNNNNNCCGAA ACAUCACU 4658 3205 AGGAGGAUU CUGACGGU 503 ACCGUCAG CUGAUGAGGNNNNNNNNCCGAA AUCCUCCU 4659 3206 GGAGGAUUC UGACGGUU 504 AACCGUCA CUGAUGAGGNNNNNNNNCCGAA AAUCCUCC 4660 3214 CUGACGGUU UCUACAAG 505 CUUGUAGA CUGAUGAGGNNNNNNNNCCGAA ACCGUCAG 4661 3215 UGACGGUUU CUACAAGG 506 CCUUGUAG CUGAUGAGGNNNNNNNNCCGAA AACCGUCA 4662 3216 GACGGUUUC UACAAGGA 507 UCCUUGUA CUGAUGAGGNNNNNNNNCCGAA AAACCGUC 4663 3218 CGGUUUCUA CAAGGAGC 508 GCUCCUUG CUGAUGAGGNNNNNNNNCCGAA AGAAACCG 4664 3231 GAGCCCAUC ACUAUGGA 509 UCCAUAGU CUGAUGAGGNNNNNNNNCCGAA AUGGGCUC 4665 3235 CCAUCACUA UGGAAGAU 510 AUCUUCCA CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG 4666 3244 UGGAAGAUC UGAUUUCU 511 AGAAAUCA CUGAUGAGGNNNNNNNNCCGAA AUCUUCCA 4667 3249 GAUCUGAUU UCUUACAG 512 CUGUAAGA CUGAUGAGGNNNNNNNNCCGAA AUCAGAUC 4668 3250 AUCUGAUUU CUUACAGU 513 ACUGUAAG CUGAUGAGGNNNNNNNNCCGAA AAUCAGAU 4669 3251 UCUGAUUUC UUACAGUU 514 AACUGUAA CUGAUGAGGNNNNNNNNCCGAA AAAUCAGA 4670 3253 UGAUUUCUU ACAGUUUU 515 AAAACUGU CUGAUGAGGNNNNNNNNCCGAA AGAAAUCA 4671 3254 GAUUUCUUA CAGUUUUC 516 GAAAACUG CUGAUGAGGNNNNNNNNCCGAA AAGAAAUC 4672 3259 CUUACAGUU UUCAAGUG 517 CACUUGAA CUGAUGAGGNNNNNNNNCCGAA ACUGUAAG 4673 3260 UUACAGUUU UCAAGUGG 518 CCACUUGA CUGAUGAGGNNNNNNNNCCGAA AACUGUAA 4674 3261 UACAGUUUU CAAGUGGC 519 GCCACUUG CUGAUGAGGNNNNNNNNCCGAA AAACUGUA 4675 3262 ACAGUUUUC AAGUGGCC 520 GGCCACUU CUGAUGAGGNNNNNNNNCCGAA AAAACUGU 4676 3284 CAUGGAGUU CCUGUCUU 521 AAGACAGG CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG 4677 3285 AUGGAGUUC CUGUCUUC 522 GAAGACAG CUGAUGAGGNNNNNNNNCCGAA AACUCCAU 4678 3290 GUUCCUGUC UUCCAGAA 523 UUCUGGAA CUGAUGAGGNNNNNNNNCCGAA ACAGGAAC 4679 3292 UCCUGUCUU CCAGAAAG 524 CUUUCUGG CUGAUGAGGNNNNNNNNCCGAA AGACAGGA 4680 3293 CCUGUCUUC CAGAAAGU 525 ACUUUCUG CUGAUGAGGNNNNNNNNCCGAA AAGACAGG 4681 3306 AAGUGCAUU CAUCGGGA 526 UCCCGAUG CUGAUGAGGNNNNNNNNCCGAA AUGCACUU 4682 3307 AGUGCAUUC AUCGGGAC 527 GUCCCGAU CUGAUGAGGNNNNNNNNCCGAA AAUGCACU 4683 3310 GCAUUCAUC GGGACCUG 528 CAGGUCCC CUGAUGAGGNNNNNNNNCCGAA AUGAAUGC 4684 3333 AGAAACAUU CUUUUAUC 529 GAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU 4685 3334 GAAACAUUC UUUUAUCU 530 AGAUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUGUUUC 4686 3336 AACAUUCUU UUAUCUGA 531 UCAGAUAA CUGAUGAGGNNNNNNNNCCGAA AGAAUGUU 4687 3337 ACAUUCUUU UAUCUGAG 532 CUCAGAUA CUGAUGAGGNNNNNNNNCCGAA AAGAAUGU 4688 3338 CAUUCUUUU AUCUGAGA 533 UCUCAGAU CUGAUGAGGNNNNNNNNCCGAA AAAGAAUG 4689 3339 AUUCUUUUA UCUGAGAA 534 UUCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAAAGAAU 4690 3341 UCUUUUAUC UGAGAACA 535 UGUUCUCA CUGAUGAGGNNNNNNNNCCGAA AUAAAAGA 4691 3363 GUGAAGAUU UGUGAUUU 536 AAAUCACA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAC 4692 3364 UGAAGAUUU GUGAUUUU 537 AAAAUCAC CUGAUGAGGNNNNNNNNCCGAA AAUCUUCA 4693 3370 UUUGUGAUU UUGGCCUU 538 AAGGCCAA CUGAUGAGGNNNNNNNNCCGAA AUCACAAA 4694 3371 UUGUGAUUU UGGCCUUG 539 CAAGGCCA CUGAUGAGGNNNNNNNNCCGAA AAUCACAA 4695 3372 UGUGAUUUU GGCCUUGC 540 GCAAGGCC CUGAUGAGGNNNNNNNNCCGAA AAAUCACA 4696 3378 UUUGGCCUU GCCCGGGA 541 UCCCGGGC CUGAUGAGGNNNNNNNNCCGAA AGGCCAAA 4697 3388 CCCGGGAUA UUUAUAAG 542 CUUAUAAA CUGAUGAGGNNNNNNNNCCGAA AUCCCGGG 4698 3390 CGGGAUAUU UAUAAGAA 543 UUCUUAUA CUGAUGAGGNNNNNNNNCCGAA AUAUCCCG 4699 3391 GGGAUAUUU AUAAGAAC 544 GUUCUUAU CUGAUGAGGNNNNNNNNCCGAA AAUAUCCC 4700 3392 GGAUAUUUA UAAGAACC 545 GGUUCUUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUCC 4701 3394 AUAUUUAUA AGAACCCC 546 GGGGUUCU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU 4702 3406 ACCCCGAUU AUGUGAGA 547 UCUCACAU CUGAUGAGGNNNNNNNNCCGAA AUCGGGGU 4703 3407 CCCCGAUUA UGUGAGAA 548 UUCUCACA CUGAUGAGGNNNNNNNNCCGAA AAUCGGGG 4704 3424 AAGGAGAUA CUCGACUU 549 AAGUCGAG CUGAUGAGGNNNNNNNNCCGAA AUCUCCUU 4705 3427 GAGAUACUC GACUUCCU 550 AGGAAGUC CUGAUGAGGNNNNNNNNCCGAA AGUAUCUC 4706 3432 ACUCGACUU CCUCUGAA 551 UUCAGAGG CUGAUGAGGNNNNNNNNCCGAA AGUCGAGU 4707 3433 CUCGACUUC CUCUGAAA 552 UUUCAGAG CUGAUGAGGNNNNNNNNCCGAA AAGUCGAG 4708 3436 GACUUCCUC UGAAAUGG 553 CCAUUUCA CUGAUGAGGNNNNNNNNCCGAA AGGAAGUC 4709 3451 GGAUGGCUC CCGAAUCU 554 AGAUUCGG CUGAUGAGGNNNNNNNNCCGAA AGCCAUCC 4710 3458 UCCCGAAUC UAUCUUUG 555 CAAAGAUA CUGAUGAGGNNNNNNNNCCGAA AUUCGGGA 4711 3460 CCGAAUCUA UCUUUGAC 556 GUCAAAGA CUGAUGAGGNNNNNNNNCCGAA AGAUUCGG 4712 3462 GAAUCUAUC UUUGACAA 557 UUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUAGAUUC 4713 3464 AUCUAUCUU UGACAAAA 558 UUUUGUCA CUGAUGAGGNNNNNNNNCCGAA AGAUAGAU 4714 3465 UCUAUCUUU GACAAAAU 559 AUUUUGUC CUGAUGAGGNNNNNNNNCCGAA AAGAUAGA 4715 3474 GACAAAAUC UACAGCAC 560 GUGCUGUA CUGAUGAGGNNNNNNNNCCGAA AUUUUGUC 4716 3476 CAAAAUCUA CAGCACCA 561 UGGUGCUG CUGAUGAGGNNNNNNNNCCGAA AGAUUUUG 4717 3500 CGUGUGGUC UUACGGAG 562 CUCCGUAA CUGAUGAGGNNNNNNNNCCGAA ACCACACG 4718 3502 UGUGGUCUU ACGGAGUA 563 UACUCCGU CUGAUGAGGNNNNNNNNCCGAA AGACCACA 4719 3503 GUGGUCUUA CGGAGUAU 564 AUACUCCG CUGAUGAGGNNNNNNNNCCGAA AAGACCAC 4720 3510 UACGGAGUA UUGCUGUG 565 CACAGCAA CUGAUGAGGNNNNNNNNCCGAA ACUCCGUA 4721 3512 CGGAGUAUU GCUGUGGG 566 CCCACAGC CUGAUGAGGNNNNNNNNCCGAA AUACUCCG 4722 3525 UGGGAAAUC UUCUCCUU 567 AAGGAGAA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA 4723 3527 GGAAAUCUU CUCCUUAG 568 CUAAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAUUUCC 4724 3528 GAAAUCUUC UCCUUAGG 569 CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAGAUUUC 4725 3530 AAUCUUCUC CUUAGGUG 570 CACCUAAG CUGAUGAGGNNNNNNNNCCGAA AGAAGAUU 4726 3533 CUUCUCCUU AGGUGGGU 571 ACCCACCU CUGAUGAGGNNNNNNNNCCGAA AGGAGAAG 4727 3534 UUCUCCUUA GGUGGGUC 572 GACCCACC CUGAUGAGGNNNNNNNNCCGAA AAGGAGAA 4728 3542 AGGUGGGUC UCCAUACC 573 GGUAUGGA CUGAUGAGGNNNNNNNNCCGAA ACCCACCU 4729 3544 GUGGGUCUC CAUACCCA 574 UGGGUAUG CUGAUGAGGNNNNNNNNCCGAA AGACCCAC 4730 3548 GUCUCCAUA CCCAGGAG 575 CUCCUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGAGAC 4731 3558 CCAGGAGUA CAAAUGGA 576 UCCAUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCCUGG 4732 3575 UGAGGACUU UUGCAGUC 577 GACUGCAA CUGAUGAGGNNNNNNNNCCGAA AGUCCUCA 4733 3576 GAGGACUUU UGCAGUCG 578 CGACUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUCCUC 4734 3577 AGGACUUUU GCAGUCGC 579 GCGACUGC CUGAUGAGGNNNNNNNNCCGAA AAAGUCCU 4735 3583 UUUGCAGUC GCCUGAGG 580 CCUCAGGC CUGAUGAGGNNNNNNNNCCGAA ACUGCAAA 4736 3613 UGAGAGCUC CUGAGUAC 581 GUACUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUCUCA 4737 3620 UCCUGAGUA CUCUACUC 582 GAGUAGAG CUGAUGAGGNNNNNNNNCCGAA ACUCAGGA 4738 3623 UGAGUACUC UACUCCUG 583 CAGGAGUA CUGAUGAGGNNNNNNNNCCGAA AGUACUCA 4739 3625 AGUACUCUA CUCCUGAA 584 UUCAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAGUACU 4740 3628 ACUCUACUC CUGAAAUC 585 GAUUUCAG CUGAUGAGGNNNNNNNNCCGAA AGUAGAGU 4741 3636 CCUGAAAUC UAUCAGAU 586 AUCUGAUA CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG 4742 3638 UGAAAUCUA UCAGAUCA 587 UGAUCUGA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCA 4743 3640 AAAUCUAUC AGAUCAUG 588 CAUGAUCU CUGAUGAGGNNNNNNNNCCGAA AUAGAUUU 4744 3645 UAUCAGAUC AUGCUGGA 589 UCCAGCAU CUGAUGAGGNNNNNNNNCCGAA AUCUGAUA 4745 3689 GCCAAGAUU UGCAGAAC 590 GUUCUGCA CUGAUGAGGNNNNNNNNCCGAA AUCUUGGC 4746 3690 CCAAGAUUU GCAGAACU 591 AGUUCUGC CUGAUGAGGNNNNNNNNCCGAA AAUCUUGG 4747 3699 GCAGAACUU GUGGAAAA 592 UUUUCCAC CUGAUGAGGNNNNNNNNCCGAA AGUUCUGC 4748 3711 GAAAAACUA GGUGAUUU 593 AAAUCACC CUGAUGAGGNNNNNNNNCCGAA AGUUUUUC 4749 3718 UAGGUGAUU UGCUUCAA 594 UUGAAGCA CUGAUGAGGNNNNNNNNCCGAA AUCACCUA 4750 3719 AGGUGAUUU GCUUCAAG 595 CUUGAAGC CUGAUGAGGNNNNNNNNCCGAA AAUCACCU 4751 3723 GAUUUGCUU CAAGCAAA 596 UUUGCUUG CUGAUGAGGNNNNNNNNCCGAA AGCAAAUC 4752 3724 AUUUGCUUC AAGCAAAU 597 AUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AAGCAAAU 4753 3735 GCAAAUGUA CAACAGGA 598 UCCUGUUG CUGAUGAGGNNNNNNNNCCGAA ACAUUUGC 4754 3748 AGGAUGGUA AAGACUAC 599 GUAGUCUU CUGAUGAGGNNNNNNNNCCGAA ACCAUCCU 4755 3755 UAAAGACUA CAUCCCAA 600 UUGGGAUG CUGAUGAGGNNNNNNNNCCGAA AGUCUUUA 4756 3759 GACUACAUC CCAAUCAA 601 UUGAUUGG CUGAUGAGGNNNNNNNNCCGAA AUGUAGUC 4757 3765 AUCCCAAUC AAUGCCAU 602 AUGGCAUU CUGAUGAGGNNNNNNNNCCGAA AUUGGGAU 4758 3774 AAUGCCAUA CUGACAGG 603 CCUGUCAG CUGAUGAGGNNNNNNNNCCGAA AUGGCAUU 4759 3787 CAGGAAAUA GUGGGUUU 604 AAACCCAC CUGAUGAGGNNNNNNNNCCGAA AUUUCCUG 4760 3794 UAGUGGGUU UACAUACU 605 AGUAUGUA CUGAUGAGGNNNNNNNNCCGAA ACCCACUA 4761 3795 AGUGGGUUU ACAUACUC 606 GAGUAUGU CUGAUGAGGNNNNNNNNCCGAA AACCCACU 4762 3796 GUGGGUUUA CAUACUCA 607 UGAGUAUG CUGAUGAGGNNNNNNNNCCGAA AAACCCAC 4763 3800 GUUUACAUA CUCAACUC 608 GAGUUGAG CUGAUGAGGNNNNNNNNCCGAA AUGUAAAC 4764 3803 UACAUACUC AACUCCUG 609 CAGGAGUU CUGAUGAGGNNNNNNNNCCGAA AGUAUGUA 4765 3808 ACUCAACUC CUGCCUUC 610 GAAGGCAG CUGAUGAGGNNNNNNNNCCGAA AGUUGAGU 4766 3815 UCCUGCCUU CUCUGAGG 611 CCUCAGAG CUGAUGAGGNNNNNNNNCCGAA AGGCAGGA 4767 3816 CCUGCCUUC UCUGAGGA 612 UCCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAGGCAGG 4768 3818 UGCCUUCUC UGAGGACU 613 AGUCCUCA CUGAUGAGGNNNNNNNNCCGAA AGAAGGCA 4769 3827 UGAGGACUU CUUCAAGG 614 CCUUGAAG CUGAUGAGGNNNNNNNNCCGAA AGUCCUCA 4770 3828 GAGGACUUC UUCAAGGA 615 UCCUUGAA CUGAUGAGGNNNNNNNNCCGAA AAGUCCUC 4771 3830 GGACUUCUU CAAGGAAA 616 UUUCCUUG CUGAUGAGGNNNNNNNNCCGAA AGAAGUCC 4772 3831 GACUUCUUC AAGGAAAG 617 CUUUCCUU CUGAUGAGGNNNNNNNNCCGAA AAGAAGUC 4773 3841 AGGAAAGUA UUUCAGCU 618 AGCUGAAA CUGAUGAGGNNNNNNNNCCGAA ACUUUCCU 4774 3843 GAAAGUAUU UCAGCUCC 619 GGAGCUGA CUGAUGAGGNNNNNNNNCCGAA AUACUUUC 4775 3844 AAAGUAUUU CAGCUCCG 620 CGGAGCUG CUGAUGAGGNNNNNNNNCCGAA AAUACUUU 4776 3845 AAGUAUUUC AGCUCCGA 621 UCGGAGCU CUGAUGAGGNNNNNNNNCCGAA AAAUACUU 4777 3850 UUUCAGCUC CGAAGUUU 622 AAACUUCG CUGAUGAGGNNNNNNNNCCGAA AGCUGAAA 4778 3857 UCCGAAGUU UAAUUCAG 623 CUGAAUUA CUGAUGAGGNNNNNNNNCCGAA ACUUCGGA 4779 3858 CCGAAGUUU AAUUCAGG 624 CCUGAAUU CUGAUGAGGNNNNNNNNCCGAA AACUUCGG 4780 3859 CGAAGUUUA AUUCAGGA 625 UCCUGAAU CUGAUGAGGNNNNNNNNCCGAA AAACUUCG 4781 3862 AGUUUAAUU CAGGAAGC 626 GCUUCCUG CUGAUGAGGNNNNNNNNCCGAA AUUAAACU 4782 3863 GUUUAAUUC AGGAAGCU 627 AGCUUCCU CUGAUGAGGNNNNNNNNCCGAA AAUUAAAC 4783 3872 AGGAAGCUC UGAUGAUG 628 CAUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUCCU 4784 3882 GAUGAUGUC AGAUAUGU 629 ACAUAUCU CUGAUGAGGNNNNNNNNCCGAA ACAUCAUC 4785 3887 UGUCAGAUA UGUAAAUG 630 CAUUUACA CUGAUGAGGNNNNNNNNCCGAA AUCUGACA 4786 3891 AGAUAUGUA AAUGCUUU 631 AAAGCAUU CUGAUGAGGNNNNNNNNCCGAA ACAUAUCU 4787 3898 UAAAUGCUU UCAAGUUC 632 GAACUUGA CUGAUGAGGNNNNNNNNCCGAA AGCAUUUA 4788 3899 AAAUGCUUU CAAGUUCA 633 UGAACUUG CUGAUGAGGNNNNNNNNCCGAA AAGCAUUU 4789 3900 AAUGCUUUC AAGUUCAU 634 AUGAACUU CUGAUGAGGNNNNNNNNCCGAA AAAGCAUU 4790 3905 UUUCAAGUU CAUGAGCC 635 GGCUCAUG CUGAUGAGGNNNNNNNNCCGAA ACUUGAAA 4791 3906 UUCAAGUUC AUGAGCCU 636 AGGCUCAU CUGAUGAGGNNNNNNNNCCGAA AACUUGAA 4792 3924 GAAAGAAUC AAAACCUU 637 AAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC 4793 3932 CAAAACCUU UGAAGAAC 638 GUUCUUCA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUG 4794 3933 AAAACCUUU GAAGAACU 639 AGUUCUUC CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU 4795 3942 GAAGAACUU UUACCGAA 640 UUCGGUAA CUGAUGAGGNNNNNNNNCCGAA AGUUCUUC 4796 3943 AAGAACUUU UACCGAAU 641 AUUCGGUA CUGAUGAGGNNNNNNNNCCGAA AAGUUCUU 4797 3944 AGAACUUUU ACCGAAUG 642 CAUUCGGU CUGAUGAGGNNNNNNNNCCGAA AAAGUUCU 4798 3945 GAACUUUUA CCGAAUGC 643 GCAUUCGG CUGAUGAGGNNNNNNNNCCGAA AAAAGUUC 4799 3959 UGCCACCUC CAUGUUUG 644 CAAACAUG CUGAUGAGGNNNNNNNNCCGAA AGGUGGCA 4800 3965 CUCCAUGUU UGAUGACU 645 AGUCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGGAG 4801 3966 UCCAUGUUU GAUGACUA 646 UAGUCAUC CUGAUGAGGNNNNNNNNCCGAA AACAUGGA 4802 3974 UGAUGACUA CCAGGGCG 647 CGCCCUGG CUGAUGAGGNNNNNNNNCCGAA AGUCAUCA 4803 3994 GCAGCACUC UGUUGGCC 648 GGCCAACA CUGAUGAGGNNNNNNNNCCGAA AGUGCUGC 4804 3998 CACUCUGUU GGCCUCUC 649 GAGAGGCC CUGAUGAGGNNNNNNNNCCGAA ACAGAGUG 4805 4004 GUUGGCCUC UCCCAUGC 650 GCAUGGGA CUGAUGAGGNNNNNNNNCCGAA AGGCCAAC 4806 4006 UGGCCUCUC CCAUGCUG 651 CAGCAUGG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCA 4807 4022 GAAGCGCUU CACCUGGA 652 UCCAGGUG CUGAUGAGGNNNNNNNNCCGAA AGCGCUUC 4808 4023 AAGCGCUUC ACCUGGAC 653 GUCCAGGU CUGAUGAGGNNNNNNNNCCGAA AAGCGCUU 4809 4052 CAAGGCCUC GCUCAAGA 654 UCUUGAGC CUGAUGAGGNNNNNNNNCCGAA AGGCCUUG 4810 4056 GCCUCGCUC AAGAUUGA 655 UCAAUCUU CUGAUGAGGNNNNNNNNCCGAA AGCGAGGC 4811 4062 CUCAAGAUU GACUUGAG 656 CUCAAGUC CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG 4812 4067 GAUUGACUU GAGAGUAA 657 UUACUCUC CUGAUGAGGNNNNNNNNCCGAA AGUCAAUC 4813 4074 UUGAGAGUA ACCAGUAA 658 UUACUGGU CUGAUGAGGNNNNNNNNCCGAA ACUCUCAA 4814 4081 UAACCAGUA AAAGUAAG 659 CUUACUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGUUA 4815 4087 GUAAAAGUA AGGAGUCG 660 CGACUCCU CUGAUGAGGNNNNNNNNCCGAA ACUUUUAC 4816 4094 UAAGGAGUC GGGGCUGU 661 ACAGCCCC CUGAUGAGGNNNNNNNNCCGAA ACUCCUUA 4817 4103 GGGGCUGUC UGAUGUCA 662 UGACAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGCCCC 4818 4110 UCUGAUGUC AGCAGGCC 663 GGCCUGCU CUGAUGAGGNNNNNNNNCCGAA ACAUCAGA 4819 4123 GGCCCAGUU UCUGCCAU 664 AUGGCAGA CUGAUGAGGNNNNNNNNCCGAA ACUGGGCC 4820 4124 GCCCAGUUU CUGCCAUU 665 AAUGGCAG CUGAUGAGGNNNNNNNNCCGAA AACUGGGC 4821 4125 CCCAGUUUC UGCCAUUC 666 GAAUGGCA CUGAUGAGGNNNNNNNNCCGAA AAACUGGG 4822 4132 UCUGCCAUU CCAGCUGU 667 ACAGCUGG CUGAUGAGGNNNNNNNNCCGAA AUGGCAGA 4823 4133 CUGCCAUUC CAGCUGUG 668 CACAGCUG CUGAUGAGGNNNNNNNNCCGAA AAUGGCAG 4824 4149 GGGCACGUC AGCGAAGG 669 CCUUCGCU CUGAUGAGGNNNNNNNNCCGAA ACGUGCCC 4825 4169 GCGCAGGUU CACCUACG 670 CGUAGGUG CUGAUGAGGNNNNNNNNCCGAA ACCUGCGC 4826 4170 CGCAGGUUC ACCUACGA 671 UCGUAGGU CUGAUGAGGNNNNNNNNCCGAA AACCUGCG 4827 4175 GUUCACCUA CGACCACG 672 CGUGGUCG CUGAUGAGGNNNNNNNNCCGAA AGGUGAAC 4828 4203 AGGAAAAUC GCGUGCUG 673 CAGCACGC CUGAUGAGGNNNNNNNNCCGAA AUUUUCCU 4829 4214 GUGCUGCUC CCCGCCCC 674 GGGGCGGG CUGAUGAGGNNNNNNNNCCGAA AGCAGCAC 4830 4229 CCCAGACUA CAACUCGG 675 CCGAGUUG CUGAUGAGGNNNNNNNNCCGAA AGUCUGGG 4831 4235 CUACAACUC GGUGGUCC 676 GGACCACC CUGAUGAGGNNNNNNNNCCGAA AGUUGUAG 4832 4242 UCGGUGGUC CUGUACUC 677 GAGUACAG CUGAUGAGGNNNNNNNNCCGAA ACCACCGA 4833 4247 GGUCCUGUA CUCCACCC 678 GGGUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGGACC 4834 4250 CCUGUACUC CACCCCAC 679 GUGGGGUG CUGAUGAGGNNNNNNNNCCGAA AGUACAGG 4835 4263 CCACCCAUC UAGAGUUU 680 AAACUCUA CUGAUGAGGNNNNNNNNCCGAA AUGGGUGG 4836 4265 ACCCAUCUA GAGUUUGA 681 UCAAACUC CUGAUGAGGNNNNNNNNCCGAA AGAUGGGU 4837 4270 UCUAGAGUU UGACACGA 682 UCGUGUCA CUGAUGAGGNNNNNNNNCCGAA ACUCUAGA 4838 4271 CUAGAGUUU GACACGAA 683 UUCGUGUC CUGAUGAGGNNNNNNNNCCGAA AACUCUAG 4839 4284 CGAAGCCUU AUUUCUAG 684 CUAGAAAU CUGAUGAGGNNNNNNNNCCGAA AGGCUUCG 4840 4285 GAAGCCUUA UUUCUAGA 685 UCUAGAAA CUGAUGAGGNNNNNNNNCCGAA AAGGCUUC 4841 4287 AGCCUUAUU UCUAGAAG 686 CUUCUAGA CUGAUGAGGNNNNNNNNCCGAA AUAAGGCU 4842 4288 GCCUUAUUU CUAGAAGC 687 GCUUCUAG CUGAUGAGGNNNNNNNNCCGAA AAUAAGGC 4843 4289 CCUUAUUUC UAGAAGCA 688 UGCUUCUA CUGAUGAGGNNNNNNNNCCGAA AAAUAAGG 4844 4291 UUAUUUCUA GAAGCACA 689 UGUGCUUC CUGAUGAGGNNNNNNNNCCGAA AGAAAUAA 4845 4305 ACAUGUGUA UUUAUACC 690 GGUAUAAA CUGAUGAGGNNNNNNNNCCGAA ACACAUGU 4846 4307 AUGUGUAUU UAUACCCC 691 GGGGUAUA CUGAUGAGGNNNNNNNNCCGAA AUACACAU 4847 4308 UGUGUAUUU AUACCCCC 692 GGGGGUAU CUGAUGAGGNNNNNNNNCCGAA AAUACACA 4848 4309 GUGUAUUUA UACCCCCA 693 UGGGGGUA CUGAUGAGGNNNNNNNNCCGAA AAAUACAC 4849 4311 GUAUUUAUA CCCCCAGG 694 CCUGGGGG CUGAUGAGGNNNNNNNNCCGAA AUAAAUAC 4850 4325 AGGAAACUA GCUUUUGC 695 GCAAAAGC CUGAUGAGGNNNNNNNNCCGAA AGUUUCCU 4851 4329 AACUAGCUU UUGCCAGU 696 ACUGGCAA CUGAUGAGGNNNNNNNNCCGAA AGCUAGUU 4852 4330 ACUAGCUUU UGCCAGUA 697 UACUGGCA CUGAUGAGGNNNNNNNNCCGAA AAGCUAGU 4853 4331 CUAGCUUUU GCCAGUAU 698 AUACUGGC CUGAUGAGGNNNNNNNNCCGAA AAAGCUAG 4854 4338 UUGCCAGUA UUAUGCAU 699 AUGCAUAA CUGAUGAGGNNNNNNNNCCGAA ACUGGCAA 4855 4340 GCCAGUAUU AUGCAUAU 700 AUAUGCAU CUGAUGAGGNNNNNNNNCCGAA AUACUGGC 4856 4341 CCAGUAUUA UGCAUAUA 701 UAUAUGCA CUGAUGAGGNNNNNNNNCCGAA AAUACUGG 4857 4347 UUAUGCAUA UAUAAGUU 702 AACUUAUA CUGAUGAGGNNNNNNNNCCGAA AUGCAUAA 4858 4349 AUGCAUAUA UAAGUUUA 703 UAAACUUA CUGAUGAGGNNNNNNNNCCGAA AUAUGCAU 4859 4351 GCAUAUAUA AGUUUACA 704 UGUAAACU CUGAUGAGGNNNNNNNNCCGAA AUAUAUGC 4860 4355 AUAUAAGUU UACACCUU 705 AAGGUGUA CUGAUGAGGNNNNNNNNCCGAA ACUUAUAU 4861 4356 UAUAAGUUU ACACCUUU 706 AAAGGUGU CUGAUGAGGNNNNNNNNCCGAA AACUUAUA 4862 4357 AUAAGUUUA CACCUUUA 707 UAAAGGUG CUGAUGAGGNNNNNNNNCCGAA AAACUUAU 4863 4363 UUACACCUU UAUCUUUC 708 GAAAGAUA CUGAUGAGGNNNNNNNNCCGAA AGGUGUAA 4864 4364 UACACCUUU AUCUUUCC 709 GGAAAGAU CUGAUGAGGNNNNNNNNCCGAA AAGGUGUA 4865 4365 ACACCUUUA UCUUUCCA 710 UGGAAAGA CUGAUGAGGNNNNNNNNCCGAA AAAGGUGU 4866 4367 ACCUUUAUC UUUCCAUG 711 CAUGGAAA CUGAUGAGGNNNNNNNNCCGAA AUAAAGGU 4867 4369 CUUUAUCUU UCCAUGGG 712 CCCAUGGA CUGAUGAGGNNNNNNNNCCGAA AGAUAAAG 4868 4370 UUUAUCUUU CCAUGGGA 713 UCCCAUGG CUGAUGAGGNNNNNNNNCCGAA AAGAUAAA 4869 4371 UUAUCUUUC CAUGGGAG 714 CUCCCAUG CUGAUGAGGNNNNNNNNCCGAA AAAGAUAA 4870 4389 CAGCUGCUU UUUGUGAU 715 AUCACAAA CUGAUGAGGNNNNNNNNCCGAA AGCAGCUG 4871 4390 AGCUGCUUU UUGUGAUU 716 AAUCACAA CUGAUGAGGNNNNNNNNCCGAA AAGCAGCU 4872 4391 GCUGCUUUU UGUGAUUU 717 AAAUCACA CUGAUGAGGNNNNNNNNCCGAA AAAGCAGC 4873 4392 CUGCUUUUU GUGAUUUU 718 AAAAUCAC CUGAUGAGGNNNNNNNNCCGAA AAAAGCAG 4874 4398 UUUGUGAUU UUUUUAAU 719 AUUAAAAA CUGAUGAGGNNNNNNNNCCGAA AUCACAAA 4875 4399 UUGUGAUUU UUUUAAUA 720 UAUUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUCACAA 4876 4400 UGUGAUUUU UUUAAUAG 721 CUAUUAAA CUGAUGAGGNNNNNNNNCCGAA AAAUCACA 4877 4401 GUGAUUUUU UUAAUAGU 722 ACUAUUAA CUGAUGAGGNNNNNNNNCCGAA AAAAUCAC 4878 4402 UGAUUUUUU UAAUAGUG 723 CACUAUUA CUGAUGAGGNNNNNNNNCCGAA AAAAAUCA 4879 4403 GAUUUUUUU AAUAGUGC 724 GCACUAUU CUGAUGAGGNNNNNNNNCCGAA AAAAAAUC 4880 4404 AUUUUUUUA AUAGUGCU 725 AGCACUAU CUGAUGAGGNNNNNNNNCCGAA AAAAAAAU 4881 4407 UUUUUAAUA GUGCUUUU 726 AAAAGCAC CUGAUGAGGNNNNNNNNCCGAA AUUAAAAA 4882 4413 AUAGUGCUU UUUUUUUU 727 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGCACUAU 4883 4414 UAGUGCUUU UUUUUUUU 728 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGCACUA 4884 4415 AGUGCUUUU UUUUUUUG 729 CAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAGCACU 4885 4416 GUGCUUUUU UUUUUUGA 730 UCAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAGCAC 4886 4417 UGCUUUUUU UUUUUGAC 731 GUCAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAGCA 4887 4418 GCUUUUUUU UUUUGACU 732 AGUCAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAGC 4888 4419 CUUUUUUUU UUUGACUA 733 UAGUCAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAG 4889 4420 UUUUUUUUU UUGACUAA 734 UUAGUCAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 4890 4421 UUUUUUUUU UGACUAAC 735 GUUAGUCA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 4891 4422 UUUUUUUUU GACUAACA 736 UGUUAGUC CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 4892 4427 UUUUGACUA ACAAGAAU 737 AUUCUUGU CUGAUGAGGNNNNNNNNCCGAA AGUCAAAA 4893 4438 AAGAAUGUA ACUCCAGA 738 UCUGGAGU CUGAUGAGGNNNNNNNNCCGAA ACAUUCUU 4894 4442 AUGUAACUC CAGAUAGA 739 UCUAUCUG CUGAUGAGGNNNNNNNNCCGAA AGUUACAU 4895 4448 CUCCAGAUA GAGAAAUA 740 UAUUUCUC CUGAUGAGGNNNNNNNNCCGAA AUCUGGAG 4896 4456 AGAGAAAUA GUGACAAG 741 CUUGUCAC GUGAUGAGGNNNNNNNNCCGAA AUUUCUCU 4897 4476 AGAACACUA CUGCUAAA 742 UUUAGCAG CUGAUGAGGNNNNNNNNCCGAA AGUGUUCU 4898 4482 CUACUGCUA AAUCCUCA 743 UGAGGAUU CUGAUGAGGNNNNNNNNCCGAA AGCAGUAG 4899 4486 UGCUAAAUC CUCAUGUU 744 AACAUGAG CUGAUGAGGNNNNNNNNCCGAA AUUUAGCA 4900 4489 UAAAUCCUC AUGUUACU 745 AGUAACAU CUGAUGAGGNNNNNNNNCCGAA AGGAUUUA 4901 4494 CCUCAUGUU ACUCAGUG 746 CACUGAGU CUGAUGAGGNNNNNNNNCCGAA ACAUGAGG 4902 4495 CUCAUGUUA CUCAGUGU 747 ACACUGAG CUGAUGAGGNNNNNNNNCCGAA AACAUGAG 4903 4498 AUGUUACUC AGUGUUAG 748 CUAACACU CUGAUGAGGNNNNNNNNCCGAA AGUAACAU 4904 4504 CUCAGUGUU AGAGAAAU 749 AUUUCUCU CUGAUGAGGNNNNNNNNCCGAA ACACUGAG 4905 4505 UCAGUGUUA GAGAAAUC 750 GAUUUCUC CUGAUGAGGNNNNNNNNCCGAA AACACUGA 4906 4513 AGAGAAAUC CUUCCUAA 751 UUAGGAAG CUGAUGAGGNNNNNNNNCCGAA AUUUCUCU 4907 4516 GAAAUCCUU CCUAAACC 752 GGUUUAGG CUGAUGAGGNNNNNNNNCCGAA AGGAUUUC 4908 4517 AAAUCCUUC CUAAACCC 753 GGGUUUAG CUGAUGAGGNNNNNNNNCCGAA AAGGAUUU 4909 4520 UCCUUCCUA AACCCAAU 754 AUUGGGUU CUGAUGAGGNNNNNNNNCCGAA AGGAAGGA 4910 4533 CAAUGACUU CCCUGCUC 755 GAGCAGGG CUGAUGAGGNNNNNNNNCCGAA AGUCAUUG 4911 4534 AAUGACUUC CCUGCUCC 756 GGAGCAGG CUGAUGAGGNNNNNNNNCCGAA AAGUCAUU 4912 4541 UCCCUGCUC CAACCCCC 757 GGGGGUUG CUGAUGAGGNNNNNNNNCCGAA AGCAGGGA 4913 4557 CGCCACCUC AGGGCACG 758 CGUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGGUGGCG 4914 4576 GGACCAGUU UGAUUGAG 759 CUCAAUCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUCC 4915 4577 GACCAGUUU GAUUGAGG 760 CCUCAAUC CUGAUGAGGNNNNNNNNCCGAA AACUGGUC 4916 4581 AGUUUGAUU GAGGAGCU 761 AGCUCCUC CUGAUGAGGNNNNNNNNCCGAA AUCAAACU 4917 4598 GCACUGAUC ACCCAAUG 762 CAUUGGGU CUGAUGAGGNNNNNNNNCCGAA AUCAGUGC 4918 4610 CAAUGCAUC ACGUACCC 763 GGGUACGU CUGAUGAGGNNNNNNNNCCGAA AUGCAUUG 4919 4615 CAUCACGUA CCCCACUG 764 CAGUGGGG CUGAUGAGGNNNNNNNNCCGAA ACGUGAUG 4920 4664 AAGCCCGUU AGCCCCAG 765 CUGGGGCU CUGAUGAGGNNNNNNNNCCGAA ACGGGCUU 4921 4665 AGCCCGUUA GCCCCAGG 766 CCUGGGGC CUGAUGAGGNNNNNNNNCCGAA AACGGGCU 4922 4678 CAGGGGAUC ACUGGCUG 767 CAGCCAGU CUGAUGAGGNNNNNNNNCCGAA AUCCCCUG 4923 4700 AGCAACAUC UCGGGAGU 768 ACUCCCGA CUGAUGAGGNNNNNNNNCCGAA AUGUUGCU 4924 4702 CAACAUCUC GGGAGUCC 769 GGACUCCC CUGAUGAGGNNNNNNNNCCGAA AGAUGUUG 4925 4709 UCGGGAGUC CUCUAGCA 770 UGCUAGAG CUGAUGAGGNNNNNNNNCCGAA ACUCCCGA 4926 4712 GGAGUCCUC UAGCAGGC 771 GCCUGCUA CUGAUGAGGNNNNNNNNCCGAA AGGACUCC 4927 4714 AGUCCUCUA GCAGGCCU 772 AGGCCUGC CUGAUGAGGNNNNNNNNCCGAA AGAGGACU 4928 4723 GCAGGCCUA AGACAUGU 773 ACAUGUCU CUGAUGAGGNNNNNNNNCCGAA AGGCCUGC 4929 4802 GAAAGAAUU UGAGACGC 774 GCGUCUCA CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC 4930 4803 AAAGAAUUU GAGACGCA 775 UGCGUCUC CUGAUGAGGNNNNNNNNCCGAA AAUUCUUU 4931 4840 ACGGGGCUC AGCAAUGC 776 GCAUUGCU CUGAUGAGGNNNNNNNNCCGAA AGCCCCGU 4932 4852 AAUGCCAUU UCAGUGGC 777 GCCACUGA CUGAUGAGGNNNNNNNNCCGAA AUGGCAUU 4933 4853 AUGCCAUUU CAGUGGCU 778 AGCCACUG CUGAUGAGGNNNNNNNNCCGAA AAUGGCAU 4934 4854 UGCCAUUUC AGUGGCUU 779 AAGCCACU CUGAUGAGGNNNNNNNNCCGAA AAAUGGCA 4935 4862 CAGUGGCUU CCCAGCUC 780 GAGCUGGG CUGAUGAGGNNNNNNNNCCGAA AGCCACUG 4936 4863 AGUGGCUUC CCAGCUCU 781 AGAGCUGG CUGAUGAGGNNNNNNNNCCGAA AAGCCACU 4937 4870 UCCCAGCUC UGACCCUU 782 AAGGGUCA CUGAUGAGGNNNNNNNNCCGAA AGCUGGGA 4938 4878 CUGACCCUU CUACAUUU 783 AAAUGUAG CUGAUGAGGNNNNNNNNCCGAA AGGGUCAG 4939 4879 UGACCCUUC UACAUUUG 784 CAAAUGUA CUGAUGAGGNNNNNNNNCCGAA AAGGGUCA 4940 4881 ACCCUUCUA CAUUUGAG 785 CUCAAAUG CUGAUGAGGNNNNNNNNCCGAA AGAAGGGU 4941 4885 UUCUACAUU UGAGGGCC 786 GGCCCUCA CUGAUGAGGNNNNNNNNCCGAA AUGUAGAA 4942 4886 UCUACAUUU GAGGGCCC 787 GGGCCCUC CUGAUGAGGNNNNNNNNCCGAA AAUGUAGA 4943 4929 GGGGACAUU UUCUGGAU 788 AUCCAGAA CUGAUGAGGNNNNNNNNCCGAA AUGUCCCC 4944 4930 GGGACAUUU UCUGGAUU 789 AAUCCAGA CUGAUGAGGNNNNNNNNCCGAA AAUGUCCC 4945 4931 GGACAUUUU CUGGAUUC 790 GAAUCCAG CUGAUGAGGNNNNNNNNCCGAA AAAUGUCC 4946 4932 GACAUUUUC UGGAUUCU 791 AGAAUCCA CUGAUGAGGNNNNNNNNCCGAA AAAAUGUC 4947 4938 UUCUGGAUU CUGGGAGG 792 CCUCCCAG CUGAUGAGGNNNNNNNNCCGAA AUCCAGAA 4948 4939 UCUGGAUUC UGGGAGGC 793 GCCUCCCA GUGAUGAGGNNNNNNNNCCGAA AAUCCAGA 4949 4963 GGACAAAUA UCUUUUUU 794 AAAAAAGA CUGAUGAGGNNNNNNNNCCGAA AUUUGUCC 4950 4965 ACAAAUAUC UUUUUUGG 795 CCAAAAAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUGU 4951 4967 AAAUAUCUU UUUUGGAA 796 UUCCAAAA CUGAUGAGGNNNNNNNNCCGAA AGAUAUUU 4952 4968 AAUAUCUUU UUUGGAAC 797 GUUCCAAA CUGAUGAGGNNNNNNNNCCGAA AAGAUAUU 4953 4969 AUAUCUUUU UUGGAACU 798 AGUUCCAA CUGAUGAGGNNNNNNNNCCGAA AAAGAUAU 4954 4970 UAUCUUUUU UGGAACUA 799 UAGUUCCA CUGAUGAGGNNNNNNNNCCGAA AAAAGAUA 4955 4971 AUCUUUUUU GGAACUAA 800 UUAGUUCC CUGAUGAGGNNNNNNNNCCGAA AAAAAGAU 4956 4978 UUGGAACUA AAGCAAAU 801 AUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCCAA 4957 4987 AAGCAAAUU UUAGACCU 802 AGGUCUAA CUGAUGAGGNNNNNNNNCCGAA AUUUGCUU 4958 4988 AGCAAAUUU UAGACCUU 803 AAGGUCUA CUGAUGAGGNNNNNNNNCCGAA AAUUUGCU 4959 4989 GCAAAUUUU AGACCUUU 804 AAAGGUCU CUGAUGAGGNNNNNNNNCCGAA AAAUUUGC 4960 4990 CAAAUUUUA GACCUUUA 805 UAAAGGUC CUGAUGAGGNNNNNNNNCCGAA AAAAUUUG 4961 4996 UUAGACCUU UACCUAUG 806 CAUAGGUA CUGAUGAGGNNNNNNNNCCGAA AGGUCUAA 4962 4997 UAGACCUUU ACCUAUGG 807 CCAUAGGU CUGAUGAGGNNNNNNNNCCGAA AAGGUCUA 4963 4998 AGACCUUUA CCUAUGGA 808 UCCAUAGG CUGAUGAGGNNNNNNNNCCGAA AAAGGUCU 4964 5002 CUUUACCUA UGGAAGUG 809 CACUUCCA CUGAUGAGGNNNNNNNNCCGAA AGGUAAAG 4965 5013 GAAGUGGUU CUAUGUCC 810 GGACAUAG CUGAUGAGGNNNNNNNNCCGAA ACCACUUC 4966 5014 AAGUGGUUC UAUGUCCA 811 UGGACAUA CUGAUGAGGNNNNNNNNCCGAA AACCACUU 4967 5016 GUGGUUCUA UGUCCAUU 812 AAUGGACA CUGAUGAGGNNNNNNNNCCGAA AGAACCAC 4968 5020 UUCUAUGUC CAUUCUCA 813 UGAGAAUG CUGAUGAGGNNNNNNNNCCGAA ACAUAGAA 4969 5024 AUGUCCAUU CUCAUUCG 814 CGAAUGAG CUGAUGAGGNNNNNNNNCCGAA AUGGACAU 4970 5025 UGUCCAUUC UCAUUCGU 815 ACGAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUGGACA 4971 5027 UCCAUUCUC AUUCGUGG 816 CCACGAAU CUGAUGAGGNNNNNNNNCCGAA AGAAUGGA 4972 5030 AUUCUCAUU CGUGGCAU 817 AUGCCACG CUGAUGAGGNNNNNNNNCCGAA AUGAGAAU 4973 5031 UUCUCAUUC GUGGCAUG 818 CAUGCCAC CUGAUGAGGNNNNNNNNCCGAA AAUGAGAA 4974 5041 UGGCAUGUU UUGAUUUG 819 CAAAUCAA CUGAUGAGGNNNNNNNNCCGAA ACAUGCCA 4975 5042 GGCAUGUUU UGAUUUGU 820 ACAAAUCA CUGAUGAGGNNNNNNNNCCGAA AACAUGCC 4976 5043 GCAUGUUUU GAUUUGUA 821 UACAAAUC CUGAUGAGGNNNNNNNNCCGAA AAACAUGC 4977 5047 GUUUUGAUU UGUAGCAC 822 GUGCUACA CUGAUGAGGNNNNNNNNCCGAA AUCAAAAC 4978 5048 UUUUGAUUU GUAGCACU 823 AGUGCUAC CUGAUGAGGNNNNNNNNCCGAA AAUCAAAA 4979 5051 UGAUUUGUA GCACUGAG 824 CUCAGUGC CUGAUGAGGNNNNNNNNCCGAA ACAAAUCA 4980 5069 GUGGCACUC AACUCUGA 825 UCAGAGUU CUGAUGAGGNNNNNNNNCCGAA AGUGCCAC 4981 5074 ACUCAACUC UGAGCCCA 826 UGGGCUCA CUGAUGAGGNNNNNNNNCCGAA AGUUGAGU 4982 5084 GAGCCCAUA CUUUUGGC 827 GCCAAAAG CUGAUGAGGNNNNNNNNCCGAA AUGGGCUC 4983 5087 CCCAUACUU UUGGCUCC 828 GGAGCCAA CUGAUGAGGNNNNNNNNCCGAA AGUAUGGG 4984 5088 CCAUACUUU UGGCUCCU 829 AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGUAUGG 4985 5089 CAUACUUUU GGCUCCUC 830 GAGGAGCC CUGAUGAGGNNNNNNNNCCGAA AAAGUAUG 4986 5094 UUUUGGCUC CUCUAGUA 831 UACUAGAG CUGAUGAGGNNNNNNNNCCGAA AGCCAAAA 4987 5097 UGGCUCCUC UAGUAAGA 832 UCUUACUA CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA 4988 5099 GCUCCUCUA GUAAGAUG 833 CAUCUUAC CUGAUGAGGNNNNNNNNCCGAA AGAGGAGC 4989 5102 CCUCUAGUA AGAUGCAC 834 GUGCAUCU CUGAUGAGGNNNNNNNNCCGAA ACUAGAGG 4990 5119 UGAAAACUU AGCCAGAG 835 CUCUGGCU CUGAUGAGGNNNNNNNNCCGAA AGUUUUCA 4991 5120 GAAAACUUA GCCAGAGU 836 ACUCUGGC CUGAUGAGGNNNNNNNNCCGAA AAGUUUUC 4992 5129 GCCAGAGUU AGGUUGUC 837 GACAACCU CUGAUGAGGNNNNNNNNCCGAA ACUCUGGC 4993 5130 CCAGAGUUA GGUUGUCU 838 AGACAACC CUGAUGAGGNNNNNNNNCCGAA AACUCUGG 4994 5134 AGUUAGGUU GUCUCCAG 839 CUGGAGAC CUGAUGAGGNNNNNNNNCCGAA ACCUAACU 4995 5137 UAGGUUGUC UCCAGGCC 840 GGCCUGGA CUGAUGAGGNNNNNNNNCCGAA ACAACCUA 4996 5139 GGUUGUCUC CAGGCCAU 841 AUGGCCUG CUGAUGAGGNNNNNNNNCCGAA AGACAACC 4997 5156 GAUGGCCUU ACACUGAA 842 UUCAGUGU CUGAUGAGGNNNNNNNNCCGAA AGGCCAUC 4998 5157 AUGGCCUUA CACUGAAA 843 UUUCAGUG CUGAUGAGGNNNNNNNNCCGAA AAGGCCAU 4999 5170 GAAAAUGUC ACAUUCUA 844 UAGAAUGU CUGAUGAGGNNNNNNNNCCGAA ACAUUUUC 5000 5175 UGUCACAUU CUAUUUUG 845 CAAAAUAG CUGAUGAGGNNNNNNNNCCGAA AUGUGACA 5001 5176 GUCACAUUC UAUUUUGG 846 CCAAAAUA CUGAUGAGGNNNNNNNNCCGAA AAUGUGAC 5002 5178 CACAUUCUA UUUUGGGU 847 ACCCAAAA CUGAUGAGGNNNNNNNNCCGAA AGAAUGUG 5003 5180 CAUUCUAUU UUGGGUAU 848 AUACCCAA CUGAUGAGGNNNNNNNNCCGAA AUAGAAUG 5004 5181 AUUCUAUUU UGGGUAUU 849 AAUACCCA CUGAUGAGGNNNNNNNNCCGAA AAUAGAAU 5005 5182 UUCUAUUUU GGGUAUUA 850 UAAUACCC CUGAUGAGGNNNNNNNNCCGAA AAAUAGAA 5006 5187 UUUUGGGUA UUAAUAUA 851 UAUAUUAA CUGAUGAGGNNNNNNNNCCGAA ACCCAAAA 5007 5189 UUGGGUAUU AAUAUAUA 852 UAUAUAUU CUGAUGAGGNNNNNNNNCCGAA AUACCCAA 5008 5190 UGGGUAUUA AUAUAUAG 853 CUAUAUAU CUGAUGAGGNNNNNNNNCCGAA AAUACCCA 5009 5193 GUAUUAAUA UAUAGUCC 854 GGACUAUA CUGAUGAGGNNNNNNNNCCGAA AUUAAUAC 5010 5195 AUUAAUAUA UAGUCCAG 855 CUGGACUA CUGAUGAGGNNNNNNNNCCGAA AUAUUAAU 5011 5197 UAAUAUAUA GUCCAGAC 856 GUCUGGAC CUGAUGAGGNNNNNNNNCCGAA AUAUAUUA 5012 5200 UAUAUAGUC CAGACACU 857 AGUGUCUG CUGAUGAGGNNNNNNNNCCGAA ACUAUAUA 5013 5209 CAGACACUU AACUCAAU 858 AUUGAGUU CUGAUGAGGNNNNNNNNCCGAA AGUGUCUG 5014 5210 AGACACUUA ACUCAAUU 859 AAUUGAGU CUGAUGAGGNNNNNNNNCCGAA AAGUGUCU 5015 5214 ACUUAACUC AAUUUCUU 860 AAGAAAUU CUGAUGAGGNNNNNNNNCCGAA AGUUAAGU 5016 5218 AACUCAAUU UCUUGGUA 861 UACCAAGA CUGAUGAGGNNNNNNNNCCGAA AUUGAGUU 5017 5219 ACUCAAUUU CUUGGUAU 862 AUACCAAG CUGAUGAGGNNNNNNNNCCGAA AAUUGAGU 5018 5220 CUCAAUUUC UUGGUAUU 863 AAUACCAA CUGAUGAGGNNNNNNNNCCGAA AAAUUGAG 5019 5222 CAAUUUCUU GGUAUUAU 864 AUAAUACC CUGAUGAGGNNNNNNNNCCGAA AGAAAUUG 5020 5226 UUCUUGGUA UUAUUCUG 865 CAGAAUAA CUGAUGAGGNNNNNNNNCCGAA ACCAAGAA 5021 5228 CUUGGUAUU AUUCUGUU 866 AACAGAAU CUGAUGAGGNNNNNNNNCCGAA AUACCAAG 5022 5229 UUGGUAUUA UUCUGUUU 867 AAACAGAA CUGAUGAGGNNNNNNNNCCGAA AAUACCAA 5023 5231 GGUAUUAUU CUGUUUUG 868 CAAAACAG CUGAUGAGGNNNNNNNNCCGAA AUAAUACC 5024 5232 GUAUUAUUC UGUUUUGC 869 GCAAAACA CUGAUGAGGNNNNNNNNCCGAA AAUAAUAC 5025 5236 UAUUCUGUU UUGCACAG 870 CUGUGCAA CUGAUGAGGNNNNNNNNCCGAA ACAGAAUA 5026 5237 AUUCUGUUU UGCACAGU 871 ACUGUGCA CUGAUGAGGNNNNNNNNCCGAA AACAGAAU 5027 5238 UUCUGUUUU GCACAGUU 872 AACUGUGC CUGAUGAGGNNNNNNNNCCGAA AAACAGAA 5028 5246 UGCACAGUU AGUUGUGA 873 UCACAACU CUGAUGAGGNNNNNNNNCCGAA ACUGUGCA 5029 5247 GCACAGUUA GUUGUGAA 874 UUCACAAC CUGAUGAGGNNNNNNNNCCGAA AACUGUGC 5030 5250 CAGUUAGUU GUGAAAGA 875 UCUUUCAC CUGAUGAGGNNNNNNNNCCGAA ACUAACUG 5031 5284 AAUGCAGUC CUGAGGAG 876 CUCCUCAG CUGAUGAGGNNNNNNNNCCGAA ACUGCAUU 5032 5296 AGGAGAGUU UUCUCCAU 877 AUGGAGAA CUGAUGAGGNNNNNNNNCCGAA ACUCUCCU 5033 5297 GGAGAGUUU UCUCCAUA 878 UAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AACUCUCC 5034 5298 GAGAGUUUU CUCCAUAU 879 AUAUGGAG CUGAUGAGGNNNNNNNNCCGAA AAACUCUC 5035 5299 AGAGUUUUC UCCAUAUC 880 GAUAUGGA CUGAUGAGGNNNNNNNNCCGAA AAAACUCU 5036 5301 AGUUUUCUC CAUAUCAA 881 UUGAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAAAACU 5037 5305 UUCUCCAUA UCAAAACG 882 CGUUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA 5038 5307 CUCCAUAUC AAAACGAG 883 CUCGUUUU CUGAUGAGGNNNNNNNNCCGAA AUAUGGAG 5039 5336 AAAAAGGUC AAUAAGGU 884 ACCUUAUU CUGAUGAGGNNNNNNNNCCGAA ACCUUUUU 5040 5340 AGGUCAAUA AGGUCAAG 885 CUUGACCU CUGAUGAGGNNNNNNNNCCGAA AUUGACCU 5041 5345 AAUAAGGUC AAGGGAAG 886 CUUCCCUU CUGAUGAGGNNNNNNNNCCGAA ACCUUAUU 5042 5361 GACCCCGUC UCUAUACC 887 GGUAUAGA CUGAUGAGGNNNNNNNNCCGAA ACGGGGUC 5043 5363 CCCCGUCUC UAUACCAA 888 UUGGUAUA CUGAUGAGGNNNNNNNNCCGAA AGACGGGG 5044 5365 CCGUCUCUA UACCAACC 889 GGUUGGUA CUGAUGAGGNNNNNNNNCCGAA AGAGACGG 5045 5367 GUCUCUAUA CCAACCAA 890 UUGGUUGG CUGAUGAGGNNNNNNNNCCGAA AUAGAGAC 5046 5382 AAACCAAUU CACCAACA 891 UGUUGGUG CUGAUGAGGNNNNNNNNCCGAA AUUGGUUU 5047 5383 AACCAAUUC ACCAACAC 892 GUGUUGGU CUGAUGAGGNNNNNNNNCCGAA AAUUGGUU 5048 5395 AACACAGUU GGGACCCA 893 UGGGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUGUGUU 5049 5417 CAGGAAGUC AGUCACGU 894 ACGUGACU CUGAUGAGGNNNNNNNNCCGAA ACUUCCUG 5050 5421 AAGUCAGUC ACGUUUCC 895 GGAAACGU CUGAUGAGGNNNNNNNNCCGAA ACUGACUU 5051 5426 AGUCACGUU UCCUUUUC 896 GAAAAGGA CUGAUGAGGNNNNNNNNCCGAA ACGUGACU 5052 5427 GUCACGUUU CCUUUUCA 897 UGAAAAGG CUGAUGAGGNNNNNNNNCCGAA AACGUGAC 5053 5428 UCACGUUUC CUUUUCAU 898 AUGAAAAG CUGAUGAGGNNNNNNNNCCGAA AAACGUGA 5054 5431 CGUUUCCUU UUCAUUUA 899 UAAAUGAA CUGAUGAGGNNNNNNNNCCGAA AGGAAACG 5055 5432 GUUUCCUUU UCAUUUAA 900 UUAAAUGA CUGAUGAGGNNNNNNNNCCGAA AAGGAAAC 5056 5433 UUUCCUUUU CAUUUAAU 901 AUUAAAUG CUGAUGAGGNNNNNNNNCCGAA AAAGGAAA 5057 5434 UUCCUUUUC AUUUAAUG 902 CAUUAAAU CUGAUGAGGNNNNNNNNCCGAA AAAAGGAA 5058 5437 CUUUUCAUU UAAUGGGG 903 CCCCAUUA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAG 5059 5438 UUUUCAUUU AAUGGGGA 904 UCCCCAUU CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA 5060 5439 UUUCAUUUA AUGGGGAU 905 AUCCCCAU CUGAUGAGGNNNNNNNNCCGAA AAAUGAAA 5061 5448 AUGGGGAUU CCACUAUC 906 GAUAGUGG CUGAUGAGGNNNNNNNNCCGAA AUCCCCAU 5062 5449 UGGGGAUUC CACUAUCU 907 AGAUAGUG CUGAUGAGGNNNNNNNNCCGAA AAUCCCCA 5063 5454 AUUCCACUA UCUCACAC 908 GUGUGAGA CUGAUGAGGNNNNNNNNCCGAA AGUGGAAU 5064 5456 UCCACUAUC UCACACUA 909 UAGUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAGUGGA 5065 5458 CACUAUCUC ACACUAAU 910 AUUAGUGU CUGAUGAGGNNNNNNNNCCGAA AGAUAGUG 5066 5464 CUCACACUA AUCUGAAA 911 UUUCAGAU CUGAUGAGGNNNNNNNNCCGAA AGUGUGAG 5067 5467 ACACUAAUC UGAAAGGA 912 UCCUUUCA CUGAUGAGGNNNNNNNNCCGAA AUUAGUGU 5068 5489 AAGAGCAUU AGCUGGCG 913 CGCCAGCU CUGAUGAGGNNNNNNNNCCGAA AUGCUCUU 5069 5490 AGAGCAUUA GCUGGCGC 914 GCGCCAGC CUGAUGAGGNNNNNNNNCCGAA AAUGCUCU 5070 5501 UGGCGCAUA UUAAGCAC 915 GUGCUUAA CUGAUGAGGNNNNNNNNCCGAA AUGCGCCA 5071 5503 GCGCAUAUU AAGCACUU 916 AAGUGCUU CUGAUGAGGNNNNNNNNCCGAA AUAUGCGC 5072 5504 CGCAUAUUA AGCACUUU 917 AAAGUGCU CUGAUGAGGNNNNNNNNCCGAA AAUAUGCG 5073 5511 UAAGCACUU UAAGCUCC 918 GGAGCUUA CUGAUGAGGNNNNNNNNCCGAA AGUGCUUA 5074 5512 AAGCACUUU AAGCUCCU 919 AGGAGCUU CUGAUGAGGNNNNNNNNCCGAA AAGUGCUU 5075 5513 AGCACUUUA AGCUCCUU 920 AAGGAGCU CUGAUGAGGNNNNNNNNCCGAA AAAGUGCU 5076 5518 UUUAAGCUC CUUGAGUA 921 UACUCAAG CUGAUGAGGNNNNNNNNCCGAA AGCUUAAA 5077 5521 AAGCUCCUU GAGUAAAA 922 UUUUACUC CUGAUGAGGNNNNNNNNCCGAA AGGAGCUU 5078 5526 CCUUGAGUA AAAAGGUG 923 CACCUUUU CUGAUGAGGNNNNNNNNCCGAA ACUCAAGG 5079 5537 AAGGUGGUA UGUAAUUU 924 AAAUUACA CUGAUGAGGNNNNNNNNCCGAA ACCACCUU 5080 5541 UGGUAUGUA AUUUAUGC 925 GCAUAAAU CUGAUGAGGNNNNNNNNCCGAA ACAUACCA 5081 5544 UAUGUAAUU UAUGCAAG 926 CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUUACAUA 5082 5545 AUGUAAUUU AUGCAAGG 927 CCUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUUACAU 5083 5546 UGUAAUUUA UGCAAGGU 928 ACCUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUUACA 5084 5555 UGCAAGGUA UUUCUCCA 929 UGGAGAAA CUGAUGAGGNNNNNNNNCCGAA ACCUUGCA 5085 5557 CAAGGUAUU UCUCCAGU 930 ACUGGAGA CUGAUGAGGNNNNNNNNCCGAA AUACCUUG 5086 5558 AAGGUAUUU CUCCAGUU 931 AACUGGAG CUGAUGAGGNNNNNNNNCCGAA AAUACCUU 5087 5559 AGGUAUUUC UCCAGUUG 932 CAACUGGA CUGAUGAGGNNNNNNNNCCGAA AAAUACCU 5088 5561 GUAUUUCUC CAGUUGGG 933 CCCAACUG CUGAUGAGGNNNNNNNNCCGAA AGAAAUAC 5089 5566 UCUCCAGUU GGGACUCA 934 UGAGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUGGAGA 5090 5573 UUGGGACUC AGGAUAUU 935 AAUAUCCU CUGAUGAGGNNNNNNNNCCGAA AGUCCCAA 5091 5579 CUCAGGAUA UUAGUUAA 936 UUAACUAA CUGAUGAGGNNNNNNNNCCGAA AUCCUGAG 5092 5581 CAGGAUAUU AGUUAAUG 937 CAUUAACU CUGAUGAGGNNNNNNNNCCGAA AUAUCCUG 5093 5582 AGGAUAUUA GUUAAUGA 938 UCAUUAAC CUGAUGAGGNNNNNNNNCCGAA AAUAUCCU 5094 5585 AUAUUAGUU AAUGAGCC 939 GGCUCAUU CUGAUGAGGNNNNNNNNCCGAA ACUAAUAU 5095 5586 UAUUAGUUA AUGAGCCA 940 UGGCUCAU CUGAUGAGGNNNNNNNNCCGAA AACUAAUA 5096 5596 UGAGCCAUC ACUAGAAG 941 CUUCUAGU CUGAUGAGGNNNNNNNNCCGAA AUGGCUCA 5097 5600 CCAUCACUA GAAGAAAA 942 UUUUCUUC CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG 5098 5615 AAGCCCAUU UUCAACUG 943 CAGUUGAA CUGAUGAGGNNNNNNNNCCGAA AUGGGCUU 5099 5616 AGCCCAUUU UCAACUGC 944 GCAGUUGA CUGAUGAGGNNNNNNNNCCGAA AAUGGGCU 5100 5617 GCCCAUUUU CAACUGCU 945 AGCAGUUG CUGAUGAGGNNNNNNNNCCGAA AAAUGGGC 5101 5618 CCCAUUUUC AACUGCUU 946 AAGCAGUU CUGAUGAGGNNNNNNNNCCGAA AAAAUGGG 5102 5626 CAACUGCUU UGAAACUU 947 AAGUUUCA CUGAUGAGGNNNNNNNNCCGAA AGCAGUUG 5103 5627 AACUGCUUU GAAACUUG 948 CAAGUUUC CUGAUGAGGNNNNNNNNCCGAA AAGCAGUU 5104 5634 UUGAAACUU GCCUGGGG 949 CCCCAGGC CUGAUGAGGNNNNNNNNCCGAA AGUUUCAA 5105 5644 CCUGGGGUC UGAGCAUG 950 CAUGCUCA CUGAUGAGGNNNNNNNNCCGAA ACCCCAGG 5106 5661 AUGGGAAUA GGGAGACA 951 UGUCUCCC CUGAUGAGGNNNNNNNNCCGAA AUUCCCAU 5107 5674 GACAGGGUA GGAAAGGG 952 CCCUUUCC CUGAUGAGGNNNNNNNNCCGAA ACCCUGUC 5108 5688 GGGCGCCUA CUCUUCAG 953 CUGAAGAG CUGAUGAGGNNNNNNNNCCGAA AGGCGCCC 5109 5691 CGCCUACUC UUCAGGGU 954 ACCCUGAA CUGAUGAGGNNNNNNNNCCGAA AGUAGGCG 5110 5693 CCUACUCUU CAGGGUCU 955 AGACCCUG CUGAUGAGGNNNNNNNNCCGAA AGAGUAGG 5111 5694 CUACUCUUC AGGGUCUA 956 UAGACCCU CUGAUGAGGNNNNNNNNCCGAA AAGAGUAG 5112 5700 UUCAGGGUC UAAAGAUC 957 GAUCUUUA CUGAUGAGGNNNNNNNNCCGAA ACCCUGAA 5113 5702 CAGGGUCUA AAGAUCAA 958 UUGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGACCCUG 5114 5708 CUAAAGAUC AAGUGGGC 959 GCCCACUU CUGAUGAGGNNNNNNNNCCGAA AUCUUUAG 5115 5719 GUGGGCCUU GGAUCGCU 960 AGCGAUCC CUGAUGAGGNNNNNNNNCCGAA AGGCCCAC 5116 5724 CCUUGGAUC GCUAAGCU 961 AGCUUAGC CUGAUGAGGNNNNNNNNCCGAA AUCCAAGG 5117 5728 GGAUCGCUA AGCUGGCU 962 AGCCAGCU CUGAUGAGGNNNNNNNNCCGAA AGCGAUCC 5118 5737 AGCUGGCUC UGUUUGAU 963 AUCAAACA CUGAUGAGGNNNNNNNNCCGAA AGCCAGCU 5119 5741 GGCUCUGUU UGAUGCUA 964 UAGCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAGCC 5120 5742 GCUCUGUUU GAUGCUAU 965 AUAGCAUC CUGAUGAGGNNNNNNNNCCGAA AACAGAGC 5121 5749 UUGAUGCUA UUUAUGCA 966 UGCAUAAA CUGAUGAGGNNNNNNNNCCGAA AGCAUCAA 5122 5751 GAUGCUAUU UAUGCAAG 967 CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUAGCAUC 5123 5752 AUGCUAUUU AUGCAAGU 968 ACUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUAGCAU 5124 5753 UGCUAUUUA UGCAAGUU 969 AACUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUAGCA 5125 5761 AUGCAAGUU AGGGUCUA 970 UAGACCCU CUGAUGAGGNNNNNNNNCCGAA ACUUGCAU 5126 5762 UGCAAGUUA GGGUCUAU 971 AUAGACCC CUGAUGAGGNNNNNNNNCCGAA AACUUGCA 5127 5767 GUUAGGGUC UAUGUAUU 972 AAUACAUA CUGAUGAGGNNNNNNNNCCGAA ACCCUAAC 5128 5769 UAGGGUCUA UGUAUUUA 973 UAAAUACA CUGAUGAGGNNNNNNNNCCGAA AGACCCUA 5129 5773 GUCUAUGUA UUUAGGAU 974 AUCCUAAA CUGAUGAGGNNNNNNNNCCGAA ACAUAGAC 5130 5775 CUAUGUAUU UAGGAUGC 975 GCAUCCUA CUGAUGAGGNNNNNNNNCCGAA AUACAUAG 5131 5776 UAUGUAUUU AGGAUGCG 976 CGCAUCCU CUGAUGAGGNNNNNNNNCCGAA AAUACAUA 5132 5777 AUGUAUUUA GGAUGCGC 977 GCGCAUCC CUGAUGAGGNNNNNNNNCCGAA AAAUACAU 5133 5788 AUGCGCCUA CUCUUCAG 978 CUGAAGAG CUGAUGAGGNNNNNNNNCCGAA AGGCGCAU 5134 5791 CGCCUACUC UUCAGGGU 954 ACCCUGAA CUGAUGAGGNNNNNNNNCCGAA AGUAGGCG 5110 5793 CCUACUCUU CAGGGUCU 955 AGACCCUG CUGAUGAGGNNNNNNNNCCGAA AGAGUAGG 5111 5794 CUACUCUUC AGGGUCUA 956 UAGACCCU CUGAUGAGGNNNNNNNNCCGAA AAGAGUAG 5112 5800 UUCAGGGUC UAAAGAUC 957 GAUCUUUA CUGAUGAGGNNNNNNNNCCGAA ACCCUGAA 5113 5802 CAGGGUCUA AAGAUCAA 958 UUGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGACCCUG 5114 5808 CUAAAGAUC AAGUGGGC 959 GCCCACUU CUGAUGAGGNNNNNNNNCCGAA AUCUUUAG 5115 5819 GUGGGCCUU GGAUCGCU 960 AGCGAUCC CUGAUGAGGNNNNNNNNCCGAA AGGCCCAC 5116 5824 CCUUGGAUC GCUAAGCU 961 AGCUUAGC CUGAUGAGGNNNNNNNNCCGAA AUCCAAGG 5117 5828 GGAUCGCUA AGCUGGCU 962 AGCCAGCU CUGAUGAGGNNNNNNNNCCGAA AGCGAUCC 5118 5837 AGCUGGCUC UGUUUGAU 963 AUCAAACA CUGAUGAGGNNNNNNNNCCGAA AGCCAGCU 5119 5841 GGCUCUGUU UGAUGCUA 964 UAGCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAGCC 5120 5842 GCUCUGUUU GAUGCUAU 965 AUAGCAUC CUGAUGAGGNNNNNNNNCCGAA AACAGAGC 5121 5849 UUGAUGCUA UUUAUGCA 966 UGCAUAAA CUGAUGAGGNNNNNNNNCCGAA AGCAUCAA 5122 5851 GAUGCUAUU UAUGCAAG 967 CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUAGCAUC 5123 5852 AUGCUAUUU AUGCAAGU 968 ACUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUAGCAU 5124 5853 UGCUAUUUA UGCAAGUU 969 AACUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUAGCA 5125 5861 AUGCAAGUU AGGGUCUA 970 UAGACCCU CUGAUGAGGNNNNNNNNCCGAA ACUUGCAU 5126 5862 UGCAAGUUA GGGUCUAU 971 AUAGACCC CUGAUGAGGNNNNNNNNCCGAA AACUUGCA 5127 5867 GUUAGGGUC UAUGUAUU 972 AAUACAUA CUGAUGAGGNNNNNNNNCCGAA ACCCUAAC 5128 5869 UAGGGUCUA UGUAUUUA 973 UAAAUACA CUGAUGAGGNNNNNNNNCCGAA AGACCCUA 5129 5873 GUCUAUGUA UUUAGGAU 974 AUCCUAAA CUGAUGAGGNNNNNNNNCCGAA ACAUAGAC 5130 5875 CUAUGUAUU UAGGAUGU 979 ACAUCCUA CUGAUGAGGNNNNNNNNCCGAA AUACAUAG 5135 5876 UAUGUAUUU AGGAUGUC 980 GACAUCCU CUGAUGAGGNNNNNNNNCCGAA AAUACAUA 5136 5877 AUGUAUUUA GGAUGUCU 981 AGACAUCC CUGAUGAGGNNNNNNNNCCGAA AAAUACAU 5137 5884 UAGGAUGUC UGCACCUU 982 AAGGUGCA CUGAUGAGGNNNNNNNNCCGAA ACAUCCUA 5138 5892 CUGCACCUU CUGCAGCC 983 GGCUGCAG CUGAUGAGGNNNNNNNNCCGAA AGGUGCAG 5139 5893 UGCACCUUC UGCAGCCA 984 UGGCUGCA CUGAUGAGGNNNNNNNNCCGAA AAGGUGCA 5140 5904 CAGCCAGUC AGAAGCUG 985 CAGCUUCU CUGAUGAGGNNNNNNNNCCGAA ACUGGCUG 5141 5930 CAGUGGAUU GCUGCUUC 986 GAAGCAGC CUGAUGAGGNNNNNNNNCCGAA AUCCACUG 5142 5937 UUGCUGCUU CUUGGGGA 987 UCCCCAAG CUGAUGAGGNNNNNNNNCCGAA AGCAGCAA 5143 5938 UGCUGCUUC UUGGGGAG 988 CUCCCCAA CUGAUGAGGNNNNNNNNCCGAA AAGCAGCA 5144 5940 CUGCUUCUU GGGGAGAA 989 UUCUCCCC CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG 5145 5953 AGAAGAGUA UGCUUCCU 990 AGGAAGCA CUGAUGAGGNNNNNNNNCCGAA ACUCUUCU 5146 5958 AGUAUGCUU CCUUUUAU 991 AUAAAAGG CUGAUGAGGNNNNNNNNCCGAA AGCAUACU 5147 5959 GUAUGCUUC CUUUUAUC 992 GAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AAGCAUAC 5148 5962 UGCUUCCUU UUAUCCAU 993 AUGGAUAA CUGAUGAGGNNNNNNNNCCGAA AGGAAGCA 5149 5963 GCUUCCUUU UAUCCAUG 994 CAUGGAUA CUGAUGAGGNNNNNNNNCCGAA AAGGAAGC 5150 5964 CUUCCUUUU AUCCAUGU 995 ACAUGGAU CUGAUGAGGNNNNNNNNCCGAA AAAGGAAG 5151 5965 UUCCUUUUA UCCAUGUA 996 UACAUGGA CUGAUGAGGNNNNNNNNCCGAA AAAAGGAA 5152 5967 CCUUUUAUC CAUGUAAU 997 AUUACAUG CUGAUGAGGNNNNNNNNCCGAA AUAAAAGG 5153 5973 AUCCAUGUA AUUUAACU 998 AGUUAAAU CUGAUGAGGNNNNNNNNCCGAA ACAUGGAU 5154 5976 CAUGUAAUU UAACUGUA 999 UACAGUUA CUGAUGAGGNNNNNNNNCCGAA AUUACAUG 5155 5977 AUGUAAUUU AACUGUAG 1000 CUACAGUU CUGAUGAGGNNNNNNNNCCGAA AAUUACAU 5156 5978 UGUAAUUUA ACUGUAGA 1001 UCUACAGU CUGAUGAGGNNNNNNNNCCGAA AAAUUACA 5157 5984 UUAACUGUA GAACCUGA 1002 UCAGGUUC CUGAUGAGGNNNNNNNNCCGAA ACAGUUAA 5158 5996 CCUGAGCUC UAAGUAAC 1003 GUUACUUA CUGAUGAGGNNNNNNNNCCGAA AGCUCAGG 5159 5998 UGAGCUCUA AGUAACCG 1004 CGGUUACU CUGAUGAGGNNNNNNNNCCGAA AGAGCUCA 5160 6002 CUCUAAGUA ACCGAAGA 1005 UCUUCGGU CUGAUGAGGNNNNNNNNCCGAA ACUUAGAG 5161 6015 AAGAAUGUA UGCCUCUG 1006 CAGAGGCA CUGAUGAGGNNNNNNNNCCGAA ACAUUCUU 5162 6021 GUAUGCCUC UGUUCUUA 1007 UAAGAACA CUGAUGAGGNNNNNNNNCCGAA AGGCAUAC 5163 6025 GCCUCUGUU CUUAUGUG 1008 CACAUAAG CUGAUGAGGNNNNNNNNCCGAA ACAGAGGC 5164 6026 CCUCUGUUC UUAUGUGC 1009 GCACAUAA CUGAUGAGGNNNNNNNNCCGAA AACAGAGG 5165 6028 UCUGUUCUU AUGUGCCA 1010 UGGCACAU CUGAUGAGGNNNNNNNNCCGAA AGAACAGA 5166 6029 CUGUUCUUA UGUGCCAC 1011 GUGGCACA CUGAUGAGGNNNNNNNNCCGAA AAGAACAG 5167 6040 UGCCACAUC CUUGUUUA 1012 UAAACAAG CUGAUGAGGNNNNNNNNCCGAA AUGUGGCA 5168 6043 CACAUCCUU GUUUAAAG 1013 CUUUAAAC CUGAUGAGGNNNNNNNNCCGAA AGGAUGUG 5169 6046 AUCCUUGUU UAAAGGCU 1014 AGCCUUUA CUGAUGAGGNNNNNNNNCCGAA ACAAGGAU 5170 6047 UCCUUGUUU AAAGGCUC 1015 GAGCCUUU CUGAUGAGGNNNNNNNNCCGAA AACAAGGA 5171 6048 CCUUGUUUA AAGGCUCU 1016 AGAGCCUU CUGAUGAGGNNNNNNNNCCGAA AAACAAGG 5172 6055 UAAAGGCUC UCUGUAUG 1017 CAUACAGA CUGAUGAGGNNNNNNNNCCGAA AGCCUUUA 5173 6057 AAGGCUCUC UGUAUGAA 1018 UUCAUACA CUGAUGAGGNNNNNNNNCCGAA AGAGCCUU 5174 6061 CUCUCUGUA UGAAGAGA 1019 UCUCUUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAGAG 5175 6079 GGGACCGUC AUCAGCAC 1020 GUGCUGAU CUGAUGAGGNNNNNNNNCCGAA ACGGUCCC 5176 6082 ACCGUCAUC AGCACAUU 1021 AAUGUGCU CUGAUGAGGNNNNNNNNCCGAA AUGACGGU 5177 6090 CAGCACAUU CCCUAGUG 1022 CACUAGGG CUGAUGAGGNNNNNNNNCCGAA AUGUGGUG 5178 6091 AGCACAUUC CCUAGUGA 1023 UCACUAGG CUGAUGAGGNNNNNNNNCCGAA AAUGUGCU 5179 6095 CAUUCCCUA GUGAGCCU 1024 AGGCUCAC CUGAUGAGGNNNNNNNNCCGAA AGGGAAUG 5180 6104 GUGAGCCUA CUGGCUCC 1025 GGAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGGCUCAC 5181 6111 UACUGGCUC CUGGCAGC 1026 GCUGCCAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGUA 5182 6124 CAGCGGCUU UUGUGGAA 1027 UUCCACAA CUGAUGAGGNNNNNNNNCCGAA AGCCGCUG 5183 6125 AGCGGCUUU UGUGGAAG 1028 CUUCCACA CUGAUGAGGNNNNNNNNCCGAA AAGCCGCU 5184 6126 GCGGCUUUU GUGGAAGA 1029 UCUUCCAC CUGAUGAGGNNNNNNNNCCGAA AAAGCCGC 5185 6137 GGAAGACUC ACUAGCCA 1030 UGGCUAGU CUGAUGAGGNNNNNNNNCCGAA AGUCUUCC 5186 6141 GACUCACUA GCCAGAAG 1031 CUUCUGGC CUGAUGAGGNNNNNNNNCCGAA AGUGAGUC 5187 6166 GGGACAGUC CUCUCCAC 1032 GUGGAGAG CUGAUGAGGNNNNNNNNCCGAA ACUGUCCC 5188 6169 ACAGUCCUC UCCACCAA 1033 UUGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGGACUGU 5189 6171 AGUCCUCUC CACCAAGA 1034 UCUUGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGACU 5190 6181 ACCAAGAUC UAAAUCCA 1035 UGGAUUUA CUGAUGAGGNNNNNNNNCCGAA AUCUUGGU 5191 6183 CAAGAUCUA AAUCCAAA 1036 UUUGGAUU CUGAUGAGGNNNNNNNNCCGAA AGAUCUUG 5192 6187 AUCUAAAUC CAAACAAA 1037 UUUGUUUG CUGAUGAGGNNNNNNNNCCGAA AUUUAGAU 5193 6204 AGCAGGCUA GAGCCAGA 1038 UCUGGCUC CUGAUGAGGNNNNNNNNCCGAA AGCCUGCU 5194 6226 GGACAAAUC UUUGUUGU 1039 ACAACAAA CUGAUGAGGNNNNNNNNCCGAA AUUUGUCC 5195 6228 ACAAAUCUU UGUUGUUC 1040 GAACAACA CUGAUGAGGNNNNNNNNCCGAA AGAUUUGU 5196 6229 CAAAUCUUU GUUGUUCC 1041 GGAACAAC CUGAUGAGGNNNNNNNNCCGAA AAGAUUUG 5197 6232 AUCUUUGUU GUUCCUCU 1042 AGAGGAAC CUGAUGAGGNNNNNNNNCCGAA ACAAAGAU 5198 6235 UUUGUUGUU CCUCUUCU 1043 AGAAGAGG CUGAUGAGGNNNNNNNNCCGAA ACAACAAA 5199 6236 UUGUUGUUC CUCUUCUU 1044 AAGAAGAG CUGAUGAGGNNNNNNNNCCGAA AACAACAA 5200 6239 UUGUUCCUC UUCUUUAC 1045 GUAAAGAA CUGAUGAGGNNNNNNNNCCGAA AGGAACAA 5201 6241 GUUCCUCUU CUUUACAC 1046 GUGUAAAG CUGAUGAGGNNNNNNNNCCGAA AGAGGAAC 5202 6242 UUCCUCUUC UUUACACA 1047 UGUGUAAA CUGAUGAGGNNNNNNNNCCGAA AAGAGGAA 5203 6244 CCUCUUCUU UACACAUA 1048 UAUGUGUA CUGAUGAGGNNNNNNNNCCGAA AGAAGAGG 5204 6245 CUCUUCUUU ACACAUAC 1049 GUAUGUGU CUGAUGAGGNNNNNNNNCCGAA AAGAAGAG 5205 6246 UCUUCUUUA CACAUACG 1050 CGUAUGUG CUGAUGAGGNNNNNNNNCCGAA AAAGAAGA 5206 6252 UUACACAUA CGCAAACC 1051 GGUUUGCG CUGAUGAGGNNNNNNNNCCGAA AUGUGUAA 5207 6280 CUGGCAAUU UUAUAAAU 1052 AUUUAUAA CUGAUGAGGNNNNNNNNCCGAA AUUGCCAG 5208 6281 UGGCAAUUU UAUAAAUC 1053 GAUUUAUA CUGAUGAGGNNNNNNNNCCGAA AAUUGCCA 5209 6282 GGCAAUUUU AUAAAUCA 1054 UGAUUUAU CUGAUGAGGNNNNNNNNCCGAA AAAUUGCC 5210 6283 GCAAUUUUA UAAAUCAG 1055 CUGAUUUA CUGAUGAGGNNNNNNNNCCGAA AAAAUUGC 5211 6285 AAUUUUAUA AAUCAGGU 1056 ACCUGAUU CUGAUGAGGNNNNNNNNCCGAA AUAAAAUU 5212 6289 UUAUAAAUC AGGUAACU 1057 AGUUACCU CUGAUGAGGNNNNNNNNCCGAA AUUUAUAA 5213 6294 AAUCAGGUA ACUGGAAG 1058 CUUCCAGU CUGAUGAGGNNNNNNNNCCGAA ACCUGAUU 5214 6308 AAGGAGGUU AAACUCAG 1059 CUGAGUUU CUGAUGAGGNNNNNNNNCCGAA ACCUCCUU 5215 6309 AGGAGGUUA AACUCAGA 1060 UCUGAGUU CUGAUGAGGNNNNNNNNCCGAA AACCUCCU 5216 6314 GUUAAACUC AGAAAAAA 1061 UUUUUUCU CUGAUGAGGNNNNNNNNCCGAA AGUUUAAC 5217 6331 GAAGACCUC AGUCAAUU 1062 AAUUGACU CUGAUGAGGNNNNNNNNCCGAA AGGUCUUC 5218 6335 ACCUCAGUC AAUUCUCU 1063 AGAGAAUU CUGAUGAGGNNNNNNNNCCGAA ACUGAGGU 5219 6339 CAGUCAAUU CUCUACUU 1064 AAGUAGAG CUGAUGAGGNNNNNNNNCCGAA AUUGACUG 5220 6340 AGUCAAUUC UCUACUUU 1065 AAAGUAGA CUGAUGAGGNNNNNNNNCCGAA AAUUGACU 5221 6342 UCAAUUCUC UACUUUUU 1066 AAAAAGUA CUGAUGAGGNNNNNNNNCCGAA AGAAUUGA 5222 6344 AAUUCUCUA CUUUUUUU 1067 AAAAAAAG CUGAUGAGGNNNNNNNNCCGAA AGAGAAUU 5223 6347 UCUCUACUU UUUUUUUU 1068 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGUAGAGA 5224 6348 CUCUACUUU UUUUUUUU 1069 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGUAGAG 5225 6349 UCUACUUUU UUUUUUUU 1070 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAGUAGA 5226 6350 CUACUUUUU UUUUUUUU 1071 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAGUAG 5227 6351 UACUUUUUU UUUUUUUU 1072 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAGUA 5228 6352 ACUUUUUUU UUUUUUUU 1073 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAGU 5229 6353 CUUUUUUUU UUUUUUUU 1074 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAG 5230 6354 UUUUUUUUU UUUUUUUC 1075 GAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5231 6355 UUUUUUUUU UUUUUUCC 1076 GGAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5232 6356 UUUUUUUUU UUUUUCCA 1077 UGGAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5233 6357 UUUUUUUUU UUUUCCAA 1078 UUGGAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5234 6358 UUUUUUUUU UUUCCAPA 1079 UUUGGAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5235 6359 UUUUUUUUU UUCCAAAU 1080 AUUUGGAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5236 6360 UUUUUUUUU UCCAAAUC 1081 GAUUUGGA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5237 6361 UUUUUUUUU CCAAAUCA 1082 UGAUUUGG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5238 6362 UUUUUUUUC CAAAUCAG 1083 CUGAUUUG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5239 6368 UUCCAAAUC AGAUAAUA 1084 UAUUAUGU CUGAUGAGGNNNNNNNNCCGAA AUUUGGAA 5240 6373 AAUCAGAUA AUAGCCCA 1085 UGGGCUAU CUGAUGAGGNNNNNNNNCCGAA AUCUGAUU 5241 6376 CAGAUAAUA GCCCAGCA 1086 UGCUGGGC CUGAUGAGGNNNNNNNNCCGAA AUUAUCUG 5242 6388 CAGCAAAUA GUGAUAAC 1087 GUUAUCAC CUGAUGAGGNNNNNNNNCCGAA AUUUGCUG 5243 6394 AUAGUGAUA ACAAAUAA 1088 UUAUUUGU CUGAUGAGGNNNNNNNNCCGAA AUCACUAU 5244 6401 UAACAAAUA AAACCUUA 1089 UAAGGUUU CUGAUGAGGNNNNNNNNCCGAA AUUUGUUA 5245 6408 UAAAACCUU AGCUGUUC 1090 GAACAGCU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUA 5246 6409 AAAACCUUA GCUGUUCA 1091 UGAACAGC CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU 5247 6415 UUAGCUGUU CAUGUCUU 1092 AAGACAUG CUGAUGAGGNNNNNNNNCCGAA ACAGCUAA 5248 6416 UAGCUGUUC AUGUCUUG 1093 CAAGACAU CUGAUGAGGNNNNNNNNCCGAA AACAGCUA 5249 6421 GUUCAUGUC UUGAUUUC 1094 GAAAUCAA CUGAUGAGGNNNNNNNNCCGAA ACAUGAAC 5250 6423 UCAUGUCUU GAUUUCAA 1095 UUGAAAUC CUGAUGAGGNNNNNNNNCCGAA AGACAUGA 5251 6427 GUCUUGAUU UCAAUAAU 1096 AUUAUUGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGAC 5252 6428 UCUUGAUUU CAAUAAUU 1097 AAUUAUUG CUGAUGAGGNNNNNNNNCCGAA AAUCAAGA 5253 6429 CUUGAUUUC AAUAAUUA 1098 UAAUUAUU CUGAUGAGGNNNNNNNNCCGAA AAAUCAAG 5254 6433 AUUUCAAUA AUUAAUUC 1099 GAAUUAAU CUGAUGAGGNNNNNNNNCCGAA AUUGAAAU 5255 6436 UCAAUAAUU AAUUCUUA 1100 UAAGAAUU CUGAUGAGGNNNNNNNNCCGAA AUUAUUGA 5256 6437 CAAUAAUUA AUUCUUAA 1101 UUAAGAAU CUGAUGAGGNNNNNNNNCCGAA AAUUAUUG 5257 6440 UAAUUAAUU CUUAAUCA 1102 UGAUUAAG CUGAUGAGGNNNNNNNNCCGAA AUUAAUUA 5258 6441 AAUUAAUUC UUAAUCAU 1103 AUGAUUAA CUGAUGAGGNNNNNNNNCCGAA AAUUAAUU 5259 6443 UUAAUUCUU AAUCAUUA 1104 UAAUGAUU CUGAUGAGGNNNNNNNNCCGAA AGAAUUAA 5260 6444 UAAUUCUUA AUCAUUAA 1105 UUAAUGAU CUGAUGAGGNNNNNNNNCCGAA AAGAAUUA 5261 6447 UUCUUAAUC AUUAAGAG 1106 CUCUUAAU CUGAUGAGGNNNNNNNNCCGAA AUUAAGAA 5262 6450 UUAAUCAUU AAGAGACC 1107 GGUCUCUU CUGAUGAGGNNNNNNNNCCGAA AUGAUUAA 5263 6451 UAAUCAUUA AGAGACCA 1108 UGGUCUCU CUGAUGAGGNNNNNNNNCCGAA AAUGAUUA 5264 6461 GAGACCAUA AUAAAUAC 1109 GUAUUUAU CUGAUGAGGNNNNNNNNCCGAA AUGGUCUC 5265 6464 ACCAUAAUA AAUACUCC 1110 GGAGUAUU CUGAUGAGGNNNNNNNNCCGAA AUUAUGGU 5266 6468 UAAUAAAUA CUCCUUUU 1111 AAAAGGAG CUGAUGAGGNNNNNNNNCCGAA AUUUAUUA 5267 6471 UAAAUACUC CUUUUCAA 1112 UUGAAAAG CUGAUGAGGNNNNNNNNCCGAA AGUAUUUA 5268 6474 AUACUCCUU UUCAAGAG 1113 CUCUUGAA CUGAUGAGGNNNNNNNNCCGAA AGGAGUAU 5269 6475 UACUCCUUU UCAAGAGA 1114 UCUCUUGA CUGAUGAGGNNNNNNNNCCGAA AAGGAGUA 5270 6476 ACUCCUUUU CAAGAGAA 1115 UUCUCUUG CUGAUGAGGNNNNNNNNCCGAA AAAGGAGU 5271 6477 CUCCUUUUC AAGAGAAA 1116 UUUCUCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGGAG 5272 6497 AAAACCAUU AGAAUUGU 1117 ACAAUUCU CUGAUGAGGNNNNNNNNCCGAA AUGGUUUU 5273 6498 AAACCAUUA GAAUUGUU 1118 AACAAUUC CUGAUGAGGNNNNNNNNCCGAA AAUGGUUU 5274 6503 AUUAGAAUU GUUACUCA 1119 UGAGUAAC CUGAUGAGGNNNNNNNNCCGAA AUUCUAAU 5275 6506 AGAAUUGUU ACUCAGCU 1120 AGCUGAGU CUGAUGAGGNNNNNNNNCCGAA ACAAUUCU 5276 6507 GAAUUGUUA CUCAGCUC 1121 GAGCUGAG CUGAUGAGGNNNNNNNNCCGAA AACAAUUC 5277 6510 UUGUUACUC AGCUCCUU 1122 AAGGAGCU CUGAUGAGGNNNNNNNNCCGAA AGUAACAA 5278 6515 ACUCAGCUC CUUCAAAC 1123 GUUUGAAG CUGAUGAGGNNNNNNNNCCGAA AGCUGAGU 5279 6518 CAGCUCCUU CAAACUCA 1124 UGAGUUUG CUGAUGAGGNNNNNNNNCCGAA AGGAGCUG 5280 6519 AGCUGCUUC AAACUCAG 1125 CUGAGUUU CUGAUGAGGNNNNNNNNCCGAA AAGGAGCU 5281 6525 UUCAAACUC AGGUUUGU 1126 ACAAACCU CUGAUGAGGNNNNNNNNCCGAA AGUUUGAA 5282 6530 ACUCAGGUU UGUAGCAU 1127 AUGCUACA CUGAUGAGGNNNNNNNNCCGAA ACCUGAGU 5283 6531 CUCAGGUUU GUAGCAUA 1128 UAUGCUAC CUGAUGAGGNNNNNNNNCCGAA AACCUGAG 5284 6534 AGGUUUGUA GCAUACAU 1129 AUGUAUGC CUGAUGAGGNNNNNNNNCCGAA ACAAACCU 5285 6539 UGUAGCAUA CAUGAGUC 1130 GACUCAUG CUGAUGAGGNNNNNNNNCCGAA AUGCUACA 5286 6547 ACAUGAGUC CAUCCAUC 1131 GAUGGAUG CUGAUGAGGNNNNNNNNCCGAA ACUCAUGU 5287 6551 GAGUCCAUC CAUCAGUC 1132 GACUGAUG CUGAUGAGGNNNNNNNNCCGAA AUGGACUC 5288 6555 CCAUCCAUC AGUCAAAG 1133 CUUUGACU CUGAUGAGGNNNNNNNNCCGAA AUGGAUGG 5289 6559 CCAUCAGUC AAAGAAUG 1134 CAUUCUUU CUGAUGAGGNNNNNNNNCCGAA ACUGAUGG 5290 6570 AGAAUGGUU CCAUCUGG 1135 CCAGAUGG CUGAUGAGGNNNNNNNNCCGAA ACCAUUCU 5291 6571 GAAUGGUUC CAUCUGGA 1136 UCCAGAUG CUGAUGAGGNNNNNNNNCCGAA AACCAUUC 5292 6575 GGUUCCAUC UGGAGUCU 1137 AGACUCCA CUGAUGAGGNNNNNNNNCCGAA AUGGAACC 5293 6582 UCUGGAGUC UUAAUGUA 1138 UACAUUAA CUGAUGAGGNNNNNNNNCCGAA ACUCCAGA 5294 6584 UGGAGUCUU AAUGUAGA 1139 UCUACAUU CUGAUGAGGNNNNNNNNCCGAA AGACUCCA 5295 6585 GGAGUCUUA AUGUAGAA 1140 UUCUACAU CUGAUGAGGNNNNNNNNCCGAA AAGACUCC 5296 6590 CUUAAUGUA GAAAGAAA 1141 UUUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUUAAG 5297 6609 UGGAGACUU GUAAUAAU 1142 AUUAUUAC CUGAUGAGGNNNNNNNNCCGAA AGUCUCCA 5298 6612 AGACUUGUA AUAAUGAG 1143 CUCAUUAU CUGAUGAGGNNNNNNNNCCGAA ACAAGUCU 5299 6615 CUUGUAAUA AUGAGCUA 1144 UAGCUCAU CUGAUGAGGNNNNNNNNCCGAA AUUACAAG 5300 6623 AAUGAGCUA GUUACAAA 1145 UUUGUAAC CUGAUGAGGNNNNNNNNCCGAA AGCUCAUU 5301 6626 GAGCUAGUU ACAAAGUG 1146 CACUUUGU CUGAUGAGGNNNNNNNNCCGAA ACUAGCUC 5302 6627 AGCUAGUUA CAAAGUGC 1147 GCACUUUG CUGAUGAGGNNNNNNNNCCGAA AACUAGCU 5303 6637 AAAGUGCUU GUUCAUUA 1148 UAAUGAAC CUGAUGAGGNNNNNNNNCCGAA AGCACUUU 5304 6640 GUGCUUGUU CAUUAAAA 1149 UUUUAAUG CUGAUGAGGNNNNNNNNCCGAA ACAAGCAC 5305 6641 UGCUUGUUC AUUAAAAU 1150 AUUUUAAU CUGAUGAGGNNNNNNNNCCGAA AACAAGCA 5306 6644 UUGUUCAUU AAAAUAGC 1151 GCUAUUUU CUGAUGAGGNNNNNNNNCCGAA AUGAACAA 5307 6645 UGUUCAUUA AAAUAGCA 1152 UGCUAUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAACA 5308 6650 AUUAAAAUA GCACUGAA 1153 UUCAGUGC CUGAUGAGGNNNNNNNNCCGAA AUUUUAAU 5309 6662 CUGAAAAUU GAAACAUG 1154 CAUGUUUC CUGAUGAGGNNNNNNNNCCGAA AUUUUCAG 5310 6674 ACAUGAAUU AACUGAUA 1155 UAUCAGUU CUGAUGAGGNNNNNNNNCCGAA AUUCAUGU 5311 6675 CAUGAAUUA ACUGAUAA 1156 UUAUCAGU CUGAUGAGGNNNNNNNNCCGAA AAUUCAUG 5312 6682 UAACUGAUA AUAUUCCA 1157 UGGAAUAU CUGAUGAGGNNNNNNNNCCGAA AUCAGUUA 5313 6685 CUGAUAAUA UUCCAAUC 1158 GAUUGGAA CUGAUGAGGNNNNNNNNCCGAA AUUAUCAG 5314 6687 GAUAAUAUU CCAAUCAU 1159 AUGAUUGG CUGAUGAGGNNNNNNNNCCGAA AUAUUAUC 5315 6688 AUAAUAUUC CAAUCAUU 1160 AAUGAUUG CUGAUGAGGNNNNNNNNCCGAA AAUAUUAU 5316 6693 AUUCCAAUC AUUUGCCA 1161 UGGCAAAU CUGAUGAGGNNNNNNNNCCGAA AUUGGAAU 5317 6696 CCAAUCAUU UGCCAUUU 1162 AAAUGGCA CUGAUGAGGNNNNNNNNCCGAA AUGAUUGG 5318 6697 CAAUCAUUU GCCAUUUA 1163 UAAAUGGC CUGAUGAGGNNNNNNNNCCGAA AAUGAUUG 5319 6703 UUUGCCAUU UAUGACAA 1164 UUGUCAUA CUGAUGAGGNNNNNNNNCCGAA AUGGCAAA 5320 6704 UUGCCAUUU AUGACAAA 1165 UUUGUCAU CUGAUGAGGNNNNNNNNCCGAA AAUGGCAA 5321 6705 UGCCAUUUA UGACAAAA 1166 UUUUGUCA CUGAUGAGGNNNNNNNNCCGAA AAAUGGCA 5322 6719 AAAAUGGUU GGCACUAA 1167 UUAGUGCC CUGAUGAGGNNNNNNNNCCGAA ACCAUUUU 5323 6726 UUGGCACUA ACAAAGAA 1168 UUCUUUGU CUGAUGAGGNNNNNNNNCCGAA AGUGCCAA 5324 6743 CGAGCACUU CCUUUCAG 1169 CUGAAAGG CUGAUGAGGNNNNNNNNCCGAA AGUGCUCG 5325 6744 GAGCACUUC CUUUCAGA 1170 UCUGAAAG CUGAUGAGGNNNNNNNNCCGAA AAGUGCUC 5326 6747 CACUUCGUU UCAGAGUU 1171 AACUCUGA CUGAUGAGGNNNNNNNNCCGAA AGGAAGUG 5327 6748 ACUUCCUUU CAGAGUUU 1172 AAACUCUG CUGAUGAGGNNNNNNNNCCGAA AAGGAAGU 5328 6749 CUUCCUUUC AGAGUUUC 1173 GAAACUCU CUGAUGAGGNNNNNNNNCCGAA AAAGGAAG 5329 6755 UUCAGAGUU UCUGAGAU 1174 AUCUCAGA CUGAUGAGGNNNNNNNNCCGAA ACUCUGAA 5330 6756 UCAGAGUUU CUGAGAUA 1175 UAUCUCAG CUGAUGAGGNNNNNNNNCCGAA AACUCUGA 5331 6757 CAGAGUUUC UGAGAUAA 1176 UUAUCUCA CUGAUGAGGNNNNNNNNCCGAA AAACUCUG 5332 6764 UCUGAGAUA AUGUAGGU 1177 ACGUACAU CUGAUGAGGNNNNNNNNCCGAA AUCUCAGA 5333 6769 GAUAAUGUA CGUGGAAC 1178 GUUCCACG CUGAUGAGGNNNNNNNNCCGAA ACAUUAUC 5334 6781 GGAACAGUC UGGGUGGA 1179 UCCACCCA CUGAUGAGGNNNNNNNNCCGAA ACUGUUCC 5335 6814 GUGCAAGUC UGUGUCUU 1180 AAGACACA CUGAUGAGGNNNNNNNNCCGAA ACUUGCAC 5336 6820 GUCUGUGUC UUGUCAGU 1181 ACUGACAA CUGAUGAGGNNNNNNNNCCGAA ACACAGAC 5337 6822 CUGUGUCUU GUCAGUCC 1182 GGACUGAC CUGAUGAGGNNNNNNNNCCGAA AGACACAG 5338 6825 UGUCUUGUC AGUCCAAG 1183 CUUGGACU CUGAUGAGGNNNNNNNNCCGAA ACAAGACA 5339 6829 UUGUCAGUC CAAGAAGU 1184 ACUUCUUG CUGAUGAGGNNNNNNNNCCGAA ACUGACAA 5340 6851 CGAGAUGUU AAUUUUAG 1185 CUAAAAUU CUGAUGAGGNNNNNNNNCCGAA ACAUCUCG 5341 6852 GAGAUGUUA AUUUUAGG 1186 CCUAAAAU CUGAUGAGGNNNNNNNNCCGAA AACAUCUC 5342 6855 AUGUUAAUU UUAGGGAC 1187 GUCCCUAA CUGAUGAGGNNNNNNNNCCGAA AUUAACAU 5343 6856 UGUUAAUUU UAGGGACC 1188 GGUCCCUA CUGAUGAGGNNNNNNNNCCGAA AAUUAACA 5344 6857 GUUAAUUUU AGGGACCC 1189 GGGUCCCU CUGAUGAGGNNNNNNNNCCGAA AAAUUAAC 5345 6858 UUAAUUUUA GGGACCCG 1190 CGGGUCCC CUGAUGAGGNNNNNNNNCCGAA AAAAUUAA 5346 6872 CCGUGCCUU GUUUCCUA 1191 UAGGAAAC CUGAUGAGGNNNNNNNNCCGAA AGGCACGG 5347 6875 UGCCUUGUU UCCUAGCC 1192 GGCUAGGA CUGAUGAGGNNNNNNNNCCGAA ACAAGGCA 5348 6876 GCCUUGUUU CCUAGCCC 1193 GGGCUAGG CUGAUGAGGNNNNNNNNCCGAA AACAAGGC 5349 6877 CCUUGUUUC CUAGCCCA 1194 UGGGCUAG CUGAUGAGGNNNNNNNNCCGAA AAACAAGG 5350 6880 UGUUUCCUA GCCCACAA 1195 UUGUGGGC CUGAUGAGGNNNNNNNNCCGAA AGGAAACA 5351 6901 GCAAACAUC AAACAGAU 1196 AUCUGUUU CUGAUGAGGNNNNNNNNCCGAA AUGUUUGC 5352 6910 AAACAGAUA CUCGCUAG 1197 CUAGCGAG CUGAUGAGGNNNNNNNNCCGAA AUCUGUUU 5353 6913 CAGAUACUC GCUAGCCU 1198 AGGCUAGC CUGAUGAGGNNNNNNNNCCGAA AGUAUCUG 5354 6917 UACUCGCUA GCCUCAUU 1199 AAUGAGGC CUGAUGAGGNNNNNNNNCCGAA AGCGAGUA 5355 6922 GCUAGCCUC AUUUAAAU 1200 AUUUAAAU CUGAUGAGGNNNNNNNNCCGAA AGGCUAGC 5356 6925 AGCCUCAUU UAAAUUGA 1201 UCAAUUUA CUGAUGAGGNNNNNNNNCCGAA AUGAGGCU 5357 6926 GCCUCAUUU AAAUUGAU 1202 AUCAAUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAGGC 5358 6927 CCUCAUUUA AAUUGAUU 1203 AAUCAAUU CUGAUGAGGNNNNNNNNCCGAA AAAUGAGG 5359 6931 AUUUAAAUU GAUUAAAG 1204 CUUUAAUC CUGAUGAGGNNNNNNNNCCGAA AUUUAAAU 5360 6935 AAAUUGAUU AAAGGAGG 1205 CCUCCUUU CUGAUGAGGNNNNNNNNCCGAA AUCAAUUU 5361 6936 AAUUGAUUA AAGGAGGA 1206 UCCUCCUU CUGAUGAGGNNNNNNNNCCGAA AAUCAAUU 5362 6951 GAGUGCAUC UUUGGCCG 1207 CGGCCAAA CUGAUGAGGNNNNNNNNCCGAA AUGCACUC 5363 6953 GUGCAUCUU UGGCCGAC 1208 GUCGGCCA CUGAUGAGGNNNNNNNNCCGAA AGAUGCAC 5364 6954 UGCAUCUUU GGCCGACA 1209 UGUCGGCC CUGAUGAGGNNNNNNNNCCGAA AAGAUGCA 5365 6970 AGUGGUGUA ACUGUGUG 1210 CACACAGU CUGAUGAGGNNNNNNNNCCGAA ACACCACU 5366 7026 GUGGGUGUA UGUGUGUU 1211 AACACACA CUGAUGAGGNNNNNNNNCCGAA ACACCCAC 5367 7034 AUGUGUGUU UUGUGCAU 1212 AUGCACAA CUGAUGAGGNNNNNNNNCCGAA ACACACAU 5368 7035 UGUGUGUUU UGUGCAUA 1213 UAUGCACA CUGAUGAGGNNNNNNNNCCGAA AACACACA 5369 7036 GUGUGUUUU GUGCAUAA 1214 UUAUGCAC CUGAUGAGGNNNNNNNNCCGAA AAACACAC 5370 7043 UUGUGCAUA ACUAUUUA 1215 UAAAUAGU CUGAUGAGGNNNNNNNNCCGAA AUGCACAA 5371 7047 GCAUAACUA UUUAAGGA 1216 UCCUUAAA CUGAUGAGGNNNNNNNNCCGAA AGUUAUGC 5372 7049 AUAACUAUU UAAGGAAA 1217 UUUCCUUA CUGAUGAGGNNNNNNNNCCGAA AUAGUUAU 5373 7050 UAACUAUUU AAGGAAAC 1218 GUUUCCUU CUGAUGAGGNNNNNNNNCCGAA AAUAGUUA 5374 7051 AACUAUUUA AGGAAACU 1219 AGUUUCCU CUGAUGAGGNNNNNNNNCCGAA AAAUAGUU 5375 7065 ACUGGAAUU UUAAAGUU 1220 AACUUUAA CUGAUGAGGNNNNNNNNCCGAA AUUCCAGU 5376 7066 CUGGAAUUU UAAAGUUA 1221 UAACUUUA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAG 5377 7067 UGGAAUUUU AAAGUUAC 1222 GUAACUUU CUGAUGAGGNNNNNNNNCCGAA AAAUUCCA 5378 7068 GGAAUUUUA AAGUUACU 1223 AGUAACUU CUGAUGAGGNNNNNNNNCCGAA AAAAUUCC 5379 7073 UUUAAAGUU ACUUUUAU 1224 AUAAAAGU CUGAUGAGGNNNNNNNNCCGAA ACUUUAAA 5380 7074 UUAAAGUUA CUUUUAUA 1225 UAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AACUUUAA 5381 7077 AAGUUACUU UUAUACAA 1226 UUGUAUAA CUGAUGAGGNNNNNNNNCCGAA AGUAACUU 5382 7078 AGUUACUUU UAUACAAA 1227 UUUGUAUA CUGAUGAGGNNNNNNNNCCGAA AAGUAACU 5383 7079 GUUACUUUU AUACAAAC 1228 GUUUGUAU CUGAUGAGGNNNNNNNNCCGAA AAAGUAAC 5384 7080 UUACUUUUA UACAAACC 1229 GGUUUGUA CUGAUGAGGNNNNNNNNCCGAA AAAAGUAA 5385 7082 ACUUUUAUA CAAACCAA 1230 UUGGUUUG CUGAUGAGGNNNNNNNNCCGAA AUAAAAGU 5386 7095 CCAAGAAUA UAUGCUAC 1231 GUAGCAUA CUGAUGAGGNNNNNNNNCCGAA AUUCUUGG 5387 7097 AAGAAUAUA UGCUACAG 1232 CUGUAGCA CUGAUGAGGNNNNNNNNCCGAA AUAUUCUU 5388 7102 UAUAUGCUA CAGAUAUA 1233 UAUAUCUG CUGAUGAGGNNNNNNNNCCGAA AGCAUAUA 5389 7108 CUACAGAUA UAAGACAG 1234 CUGUCUUA CUGAUGAGGNNNNNNNNCCGAA AUCUGUAG 5390 7110 ACAGAUAUA AGACAGAC 1235 GUCUGUCU CUGAUGAGGNNNNNNNNCCGAA AUAUCUGU 5391 7124 GACAUGGUU UGGUCCUA 1236 UAGGACCA CUGAUGAGGNNNNNNNNCCGAA ACCAUGUC 5392 7125 ACAUGGUUU GGUCCUAU 1237 AUAGGACC CUGAUGAGGNNNNNNNNCCGAA AACCAUGU 5393 7129 GGUUUGGUC CUAUAUUU 1238 AAAUAUAG CUGAUGAGGNNNNNNNNCCGAA ACCAAACC 5394 7132 UUGGUCCUA UAUUUCUA 1239 UAGAAAUA CUGAUGAGGNNNNNNNNCCGAA AGGACCAA 5395 7134 GGUCCUAUA UUUCUAGU 1240 ACUAGAAA CUGAUGAGGNNNNNNNNCCGAA AUAGGACC 5396 7136 UCCUAUAUU UCUAGUCA 1241 UGACUAGA CUGAUGAGGNNNNNNNNCCGAA AUAUAGGA 5397 7137 CCUAUAUUU CUAGUCAU 1242 AUGACUAG CUGAUGAGGNNNNNNNNCCGAA AAUAUAGG 5398 7138 CUAUAUUUC UAGUCAUG 1243 CAUGACUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUAG 5399 7140 AUAUUUCUA GUCAUGAU 1244 AUCAUGAC CUGAUGAGGNNNNNNNNCCGAA AGAAAUAU 5400 7143 UUUCUAGUC AUGAUGAA 1245 UUCAUCAU CUGAUGAGGNNNNNNNNCCGAA ACUAGAAA 5401 7155 AUGAAUGUA UUUUGUAU 1246 AUACAAAA CUGAUGAGGNNNNNNNNCCGAA ACAUUCAU 5402 7157 GAAUGUAUU UUGUAUAC 1247 GUAUACAA CUGAUGAGGNNNNNNNNCCGAA AUACAUUC 5403 7158 AAUGUAUUU UGUAUACC 1248 GGUAUACA CUGAUGAGGNNNNNNNNCCGAA AAUACAUU 5404 7159 AUGUAUUUU GUAUACCA 1249 UGGUAUAC CUGAUGAGGNNNNNNNNCCGAA AAAUACAU 5405 7162 UAUUUUGUA UACCAUCU 1250 AGAUGGUA CUGAUGAGGNNNNNNNNCCGAA ACAAAAUA 5406 7164 UUUUGUAUA CCAUCUUC 1251 GAAGAUGG CUGAUGAGGNNNNNNNNCCGAA AUACAAAA 5407 7169 UAUACCAUC UUCAUAUA 1252 UAUAUGAA CUGAUGAGGNNNNNNNNCCGAA AUGGUAUA 5408 7171 UACCAUCUU CAUAUAAU 1253 AUUAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAUGGUA 5409 7172 ACCAUCUUC AUAUAAUA 1254 UAUUAUAU CUGAUGAGGNNNNNNNNCCGAA AAGAUGGU 5410 7175 AUCUUCAUA UAAUAUAC 1255 GUAUAUUA CUGAUGAGGNNNNNNNNCCGAA AUGAAGAU 5411 7177 CUUCAUAUA AUAUACUU 1256 AAGUAUAU CUGAUGAGGNNNNNNNNCCGAA AUAUGAAG 5412 7180 CAUAUAAUA UACUUAAA 1257 UUUAAGUA CUGAUGAGGNNNNNNNNCCGAA AUUAUAUG 5413 7182 UAUAAUAUA CUUAAAAA 1258 UUUUUAAG CUGAUGAGGNNNNNNNNCCGAA AUAUUAUA 5414 7185 AAUAUACUU AAAAAUAU 1259 AUAUUUUU CUGAUGAGGNNNNNNNNCCGAA AGUAUAUU 5415 7186 AUAUACUUA AAAAUAUU 1260 AAUAUUUU CUGAUGAGGNNNNNNNNCCGAA AAGUAUAU 5416 7192 UUAAAAAUA UUUCUUAA 1261 UUAAGAAA CUGAUGAGGNNNNNNNNCCGAA AUUUUUAA 5417 7194 AAAAAUAUU UCUUAAUU 1262 AAUUAAGA CUGAUGAGGNNNNNNNNCCGAA AUAUUUUU 5418 7195 AAAAUAUUU CUUAAUUG 1263 CAAUUAAG CUGAUGAGGNNNNNNNNCCGAA AAUAUUUU 5419 7196 AAAUAUUUC UUAAUUGG 1264 CCAAUUAA CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU 5420 7198 AUAUUUCUU AAUUGGGA 1265 UCCCAAUU CUGAUGAGGNNNNNNNNCCGAA AGAAAUAU 5421 7199 UAUUUCUUA AUUGGGAU 1266 AUCCCAAU CUGAUGAGGNNNNNNNNCCGAA AAGAAAUA 5422 7202 UUCUUAAUU GGGAUUUG 1267 CAAAUCCC CUGAUGAGGNNNNNNNNCCGAA AUUAAGAA 5423 7208 AUUGGGAUU UGUAAUCG 1268 CGAUUACA CUGAUGAGGNNNNNNNNCCGAA AUCCCAAU 5424 7209 UUGGGAUUU GUAAUCGU 1269 ACGAUUAC CUGAUGAGGNNNNNNNNCCGAA AAUCCCAA 5425 7212 GGAUUUGUA AUCGUACC 1270 GGUACGAU CUGAUGAGGNNNNNNNNCCGAA ACAAAUCC 5426 7215 UUUGUAAUC GUACCAAC 1271 GUUGGUAC CUGAUGAGGNNNNNNNNCCGAA AUUACAAA 5427 7218 GUAAUCGUA CCAACUUA 1272 UAAGUUGG CUGAUGAGGNNNNNNNNCCGAA ACGAUUAC 5428 7225 UACCAACUU AAUUGAUA 1273 UAUCAAUU CUGAUGAGGNNNNNNNNCCGAA AGUUGGUA 5429 7226 ACCAACUUA AUUGAUAA 1274 UUAUCAAU CUGAUGAGGNNNNNNNNCCGAA AAGUUGGU 5430 7229 AACUUAAUU GAUAAACU 1275 AGUUUAUC CUGAUGAGGNNNNNNNNCCGAA AUUAAGUU 5431 7233 UAAUUGAUA AACUUGGC 1276 GCCAAGUU CUGAUGAGGNNNNNNNNCCGAA AUCAAUUA 5432 7238 GAUAAACUU GGCAACUG 1277 CAGUUGCC CUGAUGAGGNNNNNNNNCCGAA AGUUUAUC 5433 7249 CAACUGCUU UUAUGUUC 1278 GAACAUAA CUGAUGAGGNNNNNNNNCCGAA AGCAGUUG 5434 7250 AACUGCUUU UAUGUUCU 1279 AGAACAUA CUGAUGAGGNNNNNNNNCCGAA AAGCAGUU 5435 7251 ACUGCUUUU AUGUUCUG 1280 CAGAACAU CUGAUGAGGNNNNNNNNCCGAA AAAGCAGU 5436 7252 CUGCUUUUA UGUUCUGU 1281 ACAGAACA CUGAUGAGGNNNNNNNNCCGAA AAAAGCAG 5437 7256 UUUUAUGUU CUGUCUCC 1282 GGAGACAG CUGAUGAGGNNNNNNNNCCGAA ACAUAAAA 5438 7257 UUUAUGUUC UGUCUCCU 1283 AGGAGACA CUGAUGAGGNNNNNNNNCCGAA AACAUAAA 5439 7261 UGUUCUGUC UCCUUCCA 1284 UGGAAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGAACA 5440 7263 UUCUGUCUC CUUCCAUA 1285 UAUGGAAG CUGAUGAGGNNNNNNNNCCGAA AGACAGAA 5441 7266 UGUCUCCUU CCAUAAAU 1286 AUUUAUGG CUGAUGAGGNNNNNNNNCCGAA AGGAGACA 5442 7267 GUCUCCUUC CAUAAAUU 1287 AAUUUAUG CUGAUGAGGNNNNNNNNCCGAA AAGGAGAC 5443 7271 CCUUCCAUA AAUUUUUC 1288 GAAAAAUU CUGAUGAGGNNNNNNNNCCGAA AUGGAAGG 5444 7275 CCAUAAAUU UUUCAAAA 1289 UUUUGAAA CUGAUGAGGNNNNNNNNCCGAA AUUUAUGG 5445 7276 CAUAAAUUU UUCAAAAU 1290 AUUUUGAA CUGAUGAGGNNNNNNNNCCGAA AAUUUAUG 5446 7277 AUAAAUUUU UCAAAAUA 1291 UAUUUUGA CUGAUGAGGNNNNNNNNCCGAA AAAUUUAU 5447 7278 UAAAUUUUU CAAAAUAC 1292 GUAUUUUG CUGAUGAGGNNNNNNNNCCGAA AAAAUUUA 5448 7279 AAAUUUUUC AAAAUACU 1293 AGUAUUUU CUGAUGAGGNNNNNNNNCCGAA AAAAAUUU 5449 7285 UUCAAAAUA CUAAUUCA 1294 UGAAUUAG CUGAUGAGGNNNNNNNNCCGAA AUUUUGAA 5450 7288 AAAAUACUA AUUCAACA 1295 UGUUGAAU CUGAUGAGGNNNNNNNNCCGAA AGUAUUUU 5451 7291 AUACUAAUU CAACAAAG 1296 CUUUGUUG CUGAUGAGGNNNNNNNNCCGAA AUUAGUAU 5452 7292 UACUAAUUC AACAAAGA 1297 UCUUUGUU CUGAUGAGGNNNNNNNNCCGAA AAUUAGUA 5453 7308 AAAAAGCUC UUUUUUUU 1298 AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGCUUUUU 5454 7310 AAAGCUCUU UUUUUUCC 1299 GGAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGAGCUUU 5455 7311 AAGCUCUUU UUUUUCCU 1300 AGGAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGAGCUU 5456 7312 AGCUCUUUU UUUUCCUA 1301 UAGGAAAA CUGAUGAGGNNNNNNNNCCGAA AAAGAGCU 5457 7313 GCUCUUUUU UUUCCUAA 1302 UUAGGAAA CUGAUGAGGNNNNNNNNCCGAA AAAAGAGC 5458 7314 CUCUUUUUU UUCCUAAA 1303 UUUAGGAA CUGAUGAGGNNNNNNNNCCGAA AAAAAGAG 5459 7315 UCUUUUUUU UCCUAAAA 1304 UUUUAGGA CUGAUGAGGNNNNNNNNCCGAA AAAAAAGA 5460 7316 CUUUUUUUU CCUAAAAU 1305 AUUUUAGG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAG 5461 7317 UUUUUUUUC CUAAAAUA 1306 UAUUUUAG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA 5462 7320 UUUUUCCUA AAAUAAAC 1307 GUUUAUUU CUGAUGAGGNNNNNNNNCCGAA AGGAAAAA 5463 7325 CCUAAAAUA AACUCAAA 1308 UUUGAGUU CUGAUGAGGNNNNNNNNCCGAA AUUUUAGG 5464 7330 AAUAAACUC AAAUUUAU 1309 AUAAAUUU CUGAUGAGGNNNNNNNNCCGAA AGUUUAUU 5465 7335 ACUCAAAUU UAUCCUUG 1310 CAAGGAUA CUGAUGAGGNNNNNNNNCCGAA AUUUGAGU 5466 7336 CUCAAAUUU AUCCUUGU 1311 ACAAGGAU CUGAUGAGGNNNNNNNNCCGAA AAUUUGAG 5467 7337 UCAAAUUUA UCCUUGUU 1312 AACAAGGA CUGAUGAGGNNNNNNNNCCGAA AAAUUUGA 5468 7339 AAAUUUAUC CUUGUUUA 1313 UAAACAAG CUGAUGAGGNNNNNNNNCCGAA AUAAAUUU 5469 7342 UUUAUCCUU GUUUAGAG 1314 CUCUAAAC CUGAUGAGGNNNNNNNNCCGAA AGGAUAAA 5470 7345 AUCCUUGUU UAGAGCAG 1315 CUGCUCUA CUGAUGAGGNNNNNNNNCCGAA ACAAGGAU 5471 7346 UCCUUGUUU AGAGCAGA 1316 UCUGCUCU CUGAUGAGGNNNNNNNNCCGAA AACAAGGA 5472 7347 CCUUGUUUA GAGCAGAG 1317 CUCUGCUC CUGAUGAGGNNNNNNNNCCGAA AAACAAGG 5473 7362 AGAAAAAUU AAGAAAAA 1318 UUUUUCUU CUGAUGAGGNNNNNNNNCCGAA AUUUUUCU 5474 7363 GAAAAAUUA AGAAAAAC 1319 GUUUUUCU CUGAUGAGGNNNNNNNNCCGAA AAUUUUUC 5475 7373 GAAAAACUU UGAAAUGG 1320 CCAUUUCA CUGAUGAGGNNNNNNNNCCGAA AGUUUUUC 5476 7374 AAAAACUUU GAAAUGGU 1321 ACCAUUUC CUGAUGAGGNNNNNNNNCCGAA AAGUUUUU 5477 7383 GAAAUGGUC UCAAAAAA 1322 UUUUUUGA CUGAUGAGGNNNNNNNNCCGAA ACCAUUUC 5478 7385 AAUGGUCUC AAAAAAUU 1323 AAUUUUUU CUGAUGAGGNNNNNNNNCCGAA AGACCAUU 5479 7393 CAAAAAAUU GCUAAAUA 1324 UAUUUAGC CUGAUGAGGNNNNNNNNCCGAA AUUUUUUG 5480 7397 AAAUUGCUA AAUAUUUU 1325 AAAAUAUU CUGAUGAGGNNNNNNNNCCGAA AGCAAUUU 5481 7401 UGCUAAAUA UUUUCAAU 1326 AUUGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUAGCA 5482 7403 CUAAAUAUU UUCAAUGG 1327 CCAUUGAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUAG 5483 7404 UAAAUAUUU UCAAUGGA 1328 UCCAUUGA CUGAUGAGGNNNNNNNNCCGAA AAUAUUUA 5484 7405 AAAUAUUUU CAAUGGAA 1329 UUCCAUUG CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU 5485 7406 AAUAUUUUC AAUGGAAA 1330 UUUCCAUU CUGAUGAGGNNNNNNNNCCGAA AAAAUAUU 5486 7418 GGAAAACUA AAUGUUAG 1331 CUAACAUU CUGAUGAGGNNNNNNNNCCGAA AGUUUUCC 5487 7424 CUAAAUGUU AGUUUAGC 1332 GCUAAACU CUGAUGAGGNNNNNNNNCCGAA ACAUUUAG 5488 7425 UAAAUGUUA GUUUAGCU 1333 AGCUAAAC CUGAUGAGGNNNNNNNNCCGAA AACAUUUA 5489 7428 AUGUUAGUU UAGCUGAU 1334 AUCAGCUA CUGAUGAGGNNNNNNNNCCGAA ACUAACAU 5490 7429 UGUUAGUUU AGCUGAUU 1335 AAUCAGCU CUGAUGAGGNNNNNNNNCCGAA AACUAACA 5491 7430 GUUAGUUUA GCUGAUUG 1336 CAAUCAGC CUGAUGAGGNNNNNNNNCCGAA AAACUAAC 5492 7437 UAGCUGAUU GUAUGGGG 1337 CCCCAUAC CUGAUGAGGNNNNNNNNCCGAA AUCAGCUA 5493 7440 CUGAUUGUA UGGGGUUU 1338 AAACCCCA CUGAUGAGGNNNNNNNNCCGAA ACAAUCAG 5494 7447 UAUGGGGUU UUCGAACC 1339 GGUUCGAA CUGAUGAGGNNNNNNNNCCGAA ACCCCAUA 5495 7448 AUGGGGUUU UCGAACCU 1340 AGGUUCGA CUGAUGAGGNNNNNNNNCCGAA AACCCCAU 5496 7449 UGGGGUUUU CGAACCUU 1341 AAGGUUCG CUGAUGAGGNNNNNNNNCCGAA AAACCCCA 5497 7450 GGGGUUUUC GAACCUUU 1342 AAAGGUUC CUGAUGAGGNNNNNNNNCCGAA AAAACCCC 5498 7457 UCGAACCUU UCACUUUU 1343 AAAAGUGA CUGAUGAGGNNNNNNNNCCGAA AGGUUCGA 5499 7458 CGAACCUUU CACUUUUU 1344 AAAAAGUG CUGAUGAGGNNNNNNNNCCGAA AAGGUUCG 5500 7459 GAACCUUUC ACUUUUUG 1345 CAAAAAGU CUGAUGAGGNNNNNNNNCCGAA AAAGGUUC 5501 7463 CUUUCACUU UUUGUUUG 1346 CAAACAAA CUGAUGAGGNNNNNNNNCCGAA AGUGAAAG 5502 7464 UUUCACUUU UUGUUUGU 1347 ACAAACAA CUGAUGAGGNNNNNNNNCCGAA AAGUGAAA 5503 7465 UUCACUUUU UGUUUGUU 1348 AACAAACA CUGAUGAGGNNNNNNNNCCGAA AAAGUGAA 5504 7466 UCACUUUUU GUUUGUUU 1349 AAACAAAC CUGAUGAGGNNNNNNNNCCGAA AAAAGUGA 5505 7469 CUUUUUGUU UGUUUUAC 1350 GUAAAACA CUGAUGAGGNNNNNNNNCCGAA ACAAAAAG 5506 7470 UUUUUGUUU GUUUUACC 1351 GGUAAAAC CUGAUGAGGNNNNNNNNCCGAA AACAAAAA 5507 7473 UUGUUUGUU UUACCUAU 1352 AUAGGUAA CUGAUGAGGNNNNNNNNCCGAA ACAAACAA 5508 7474 UGUUUGUUU UACCUAUU 1353 AAUAGGUA CUGAUGAGGNNNNNNNNCCGAA AACAAACA 5509 7475 GUUUGUUUU ACCUAUUU 1354 AAAUAGGU CUGAUGAGGNNNNNNNNCCGAA AAACAAAC 5510 7476 UUUGUUUUA CCUAUUUC 1355 GAAAUAGG CUGAUGAGGNNNNNNNNCCGAA AAAACAAA 5511 7480 UUUUACCUA UUUCACAA 1356 UUGUGAAA CUGAUGAGGNNNNNNNNCCGAA AGGUAAAA 5512 7482 UUACCUAUU UCACAACU 1357 AGUUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAGGUAA 5513 7483 UACCUAUUU CACAACUG 1358 CAGUUGUG CUGAUGAGGNNNNNNNNCCGAA AAUAGGUA 5514 7484 ACCUAUUUC ACAACUGU 1359 ACAGUUGU CUGAUGAGGNNNNNNNNCCGAA AAAUAGGU 5515 7495 AACUGUGUA AAUUGCCA 1360 UGGCAAUU CUGAUGAGGNNNNNNNNCCGAA ACACAGUU 5516 7499 GUGUAAAUU GCCAAUAA 1361 UUAUUGGC CUGAUGAGGNNNNNNNNCCGAA AUUUACAC 5517 7506 UUGCCAAUA AUUCCUGU 1362 ACAGGAAU CUGAUGAGGNNNNNNNNCCGAA AUUGGCAA 5518 7509 CCAAUAAUU CCUGUCCA 1363 UGGACAGG CUGAUGAGGNNNNNNNNCCGAA AUUAUUGG 5519 7510 CAAUAAUUC CUGUCCAU 1364 AUGGACAG CUGAUGAGGNNNNNNNNCCGAA AAUUAUUG 5520 7515 AUUCCUGUC CAUGAAAA 1365 UUUUCAUG CUGAUGAGGNNNNNNNNCCGAA ACAGGAAU 5521 7531 AUGCAAAUU AUCCAGUG 1366 CACUGGAU CUGAUGAGGNNNNNNNNCCGAA AUUUGCAU 5522 7532 UGCAAAUUA UCCAGUGU 1367 ACACUGGA CUGAUGAGGNNNNNNNNCCGAA AAUUUGCA 5523 7534 CAAAUUAUC CAGUGUAG 1368 CUACACUG CUGAUGAGGNNNNNNNNCCGAA AUAAUUUG 5524 7541 UCCAGUGUA GAUAUAUU 1369 AAUAUAUC CUGAUGAGGNNNNNNNNCCGAA ACACUGGA 5525 7545 GUGUAGAUA UAUUUGAC 1370 GUCAAAUA CUGAUGAGGNNNNNNNNCCGAA AUCUACAC 5526 7547 GUAGAUAUA UUUGACCA 1371 UGGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUAUCUAC 5527 7549 AGAUAUAUU UGACCAUC 1372 GAUGGUCA CUGAUGAGGNNNNNNNNCCGAA AUAUAUCU 5528 7550 GAUAUAUUU GACCAUCA 1373 UGAUGGUC CUGAUGAGGNNNNNNNNCCGAA AAUAUAUC 5529 7557 UUGACCAUC ACCCUAUG 1374 CAUAGGGU CUGAUGAGGNNNNNNNNCCGAA AUGGUCAA 5530 7563 AUCACCCUA UGGAUAUU 1375 AAUAUCCA CUGAUGAGGNNNNNNNNCCGAA AGGGUGAU 5531 7569 CUAUGGAUA UUGGCUAG 1376 CUAGCCAA CUGAUGAGGNNNNNNNNCCGAA AUCCAUAG 5532 7571 AUGGAUAUU GGCUAGUU 1377 AACUAGCC CUGAUGAGGNNNNNNNNCCGAA AUAUCCAU 5533 7576 UAUUGGCUA GUUUUGCC 1378 GGCAAAAC CUGAUGAGGNNNNNNNNCCGAA AGCCAAUA 5534 7579 UGGCUAGUU UUGCCUUU 1379 AAAGGCAA CUGAUGAGGNNNNNNNNCCGAA ACUAGCCA 5535 7580 GGCUAGUUU UGCCUUUA 1380 UAAAGGCA CUGAUGAGGNNNNNNNNCCGAA AACUAGCC 5536 7581 GCUAGUUUU GCCUUUAU 1381 AUAAAGGC CUGAUGAGGNNNNNNNNCCGAA AAACUAGC 5537 7586 UUUUGCCUU UAUUAAGC 1382 GCUUAAUA CUGAUGAGGNNNNNNNNCCGAA AGGCAAAA 5538 7587 UUUGCCUUU AUUAAGCA 1383 UGCUUAAU CUGAUGAGGNNNNNNNNCCGAA AAGGCAAA 5539 7588 UUGCCUUUA UUAAGCAA 1384 UUGCUUAA CUGAUGAGGNNNNNNNNCCGAA AAAGGCAA 5540 7590 GCCUUUAUU AAGCAAAU 1385 AUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAGGC 5541 7591 CCUUUAUUA AGCAAAUU 1386 AAUUUGCU CUGAUGAGGNNNNNNNNCCGAA AAUAAAGG 5542 7599 AAGCAAAUU CAUUUCAG 1387 CUGAAAUG CUGAUGAGGNNNNNNNNCCGAA AUUUGCUU 5543 7600 AGCAAAUUC AUUUCAGC 1388 GCUGAAAU CUGAUGAGGNNNNNNNNCCGAA AAUUUGCU 5544 7603 AAAUUCAUU UCAGCCUG 1389 CAGGCUGA CUGAUGAGGNNNNNNNNCCGAA AUGAAUUU 5545 7604 AAUUCAUUU CAGCCUGA 1390 UCAGGCUG CUGAUGAGGNNNNNNNNCCGAA AAUGAAUU 5546 7605 AUUCAUUUC AGCCUGAA 1391 UUCAGGCU CUGAUGAGGNNNNNNNNCCGAA AAAUGAAU 5547 7617 CUGAAUGUC UGCCUAUA 1392 UAUAGGCA CUGAUGAGGNNNNNNNNCCGAA ACAUUCAG 5548 7623 GUCUGCCUA UAUAUUCU 1393 AGAAUAUA CUGAUGAGGNNNNNNNNCCGAA AGGCAGAC 5549 7625 CUGCCUAUA UAUUCUCU 1394 AGAGAAUA CUGAUGAGGNNNNNNNNCCGAA AUAGGCAG 5550 7627 GCCUAUAUA UUCUCUGC 1395 GCAGAGAA CUGAUGAGGNNNNNNNNCCGAA AUAUAGGC 5551 7629 CUAUAUAUU CUCUGCUC 1396 GAGCAGAG CUGAUGAGGNNNNNNNNCCGAA AUAUAUAG 5552 7630 UAUAUAUUC UCUGCUCU 1397 AGAGCAGA CUGAUGAGGNNNNNNNNCCGAA AAUAUAUA 5553 7632 UAUAUUCUC UGCUCUUU 1398 AAAGAGCA CUGAUGAGGNNNNNNNNCCGAA AGAAUAUA 5554 7637 UCUCUGCUC UUUGUAUU 1399 AAUACAAA CUGAUGAGGNNNNNNNNCCGAA AGCAGAGA 5555 7639 UCUGCUCUU UGUAUUCU 1400 AGAAUACA CUGAUGAGGNNNNNNNNCCGAA AGAGCAGA 5556 7640 CUGCUCUUU GUAUUCUC 1401 GAGAAUAC CUGAUGAGGNNNNNNNNCCGAA AAGAGCAG 5557 7643 CUCUUUGUA UUCUCCUU 1402 AAGGAGAA CUGAUGAGGNNNNNNNNCCGAA ACAAAGAG 5558 7645 CUUUGUAUU CUCCUUUG 1403 CAAAGGAG CUGAUGAGGNNNNNNNNCCGAA AUACAAAG 5559 7646 UUUGUAUUC UCCUUUGA 1404 UCAAAGGA CUGAUGAGGNNNNNNNNCCGAA AAUACAAA 5560 7648 UGUAUUCUC CUUUGAAC 1405 GUUCAAAG CUGAUGAGGNNNNNNNNCCGAA AGAAUACA 5561 7651 AUUCUCCUU UGAACCCG 1406 CGGGUUCA CUGAUGAGGNNNNNNNNCCGAA AGGAGAAU 5562 7652 UUCUCCUUU GAACCCGU 1407 ACGGGUUC CUGAUGAGGNNNNNNNNCCGAA AAGGAGAA 5563 7661 GAACCCGUU AAAACAUC 1408 GAUGUUUU CUGAUGAGGNNNNNNNNCCGAA ACGGGUUC 5564 7662 AACCCGUUA AAACAUCC 1409 GGAUGUUU CUGAUGAGGNNNNNNNNCCGAA AACGGGUU 5565 7669 UAAAACAUC CUGUGGCA 1410 UGCCACAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUUA 5566

Where “N” represents stem II region of a HH ribozyme (Hertel et al., 1992 Nucleic Acids Res. 20 3252). TABLE III Human flt1 VEGF Receptor-Hairpin Ribozyme and Substrate sequence Pos Substrate Seq ID No HP Ribozyme Sequence Seq ID No 16 CCUCUCG GCU CCUCCCCG 1411 CGGGGAGG AGAA GAGAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5567 39 GGCGGCG GCU CGGAGCGG 1412 CCGCUCCG AGAA GCCGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5568 180 GAGGACG GAC UCUGGCGG 1413 CCGCCAGA AGAA GUCCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5569 190 UCUGGCG GCC GGGUCGUU 1414 AACGACCC AGAA GCCAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5570 278 GGGUCCU GCU GUGCGCGC 1415 GCGCGCAC AGAA GGACCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5571 290 GCGCGCU GCU CAGCUGUC 1416 GACAGCUG AGAA GCGCGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5572 295 CUGCUCA GCU GUCUGCUU 1417 AAGCAGAC AGAA GAGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5573 298 CUCAGCU GUC UGCUUCUC 1418 GAGAAGCA AGAA GCUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5574 302 GCUGUCU GCU UCUCACAG 1419 CUGUGAGA AGAA GACAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5575 420 GGAAGCA GCC CAUAAAUG 1420 CAUUUAUG AGAA GCUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5576 486 UAAAUCU GCC UGUGGAAG 1421 CUUCCACA AGAA GAUUUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5577 537 GAACACA GCU CAAGCAAA 1422 UUUGCUUG AGAA GUGUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5578 565 UUCUACA GCU GCAAAUAU 1423 AUAUUUGC AGAA GUAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5579 721 AUUCCCU GCC GGGUUACG 1424 CGUAACCC AGAA GGGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5580 786 GAUCCCU GAU GGAAAACG 1425 CGUUUUCC AGAA GGGAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5581 863 GGCUUCU GAC CUGUGAAG 1426 CUUCACAG AGAA GAAGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5582 1056 UUACCCU GAU GAAAAAAA 1427 UUUUUUUC AGAA GGGUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5583 1301 GCAAGCG GUC UUACCGGC 1428 GCCGGUAA AGAA GCUUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5584 1310 CUUACCG GCU CUCUAUGA 1429 UCAUAGAG AGAA GGUAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5585 1389 GAAAUCU GCU CGCUAUUU 1430 AAAUAGCG AGAA GAUUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5586 1535 AACCCCA GAU UUACGAAA 1431 UUUCGUAA AGAA GGGGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5587 1566 GUUUCCA GAC CCGGCUCU 1432 AGAGCCGG AGAA GGAAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5588 1572 AGACCCG GCU CUCUACCC 1433 GGGUAGAG AGAA GGGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5589 1604 AAAUCCU GAC UUGUACCG 1434 CGGUACAA AGAA GGAUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5590 1824 UGUGGCU GAC UCUAGAAU 1435 AUUCUAGA AGAA GCCACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5591 1908 UAUCACA GAU GUGCCAAA 1436 UUUGGCAC AGAA GUGAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5592 1949 AAAUGCC GAC GGAAGGAG 1437 CUCCUUCC AGAA GCAUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5593 1973 UGAAACU GUC UUGCACAG 1438 CUGUGCAA AGAA GUUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5594 2275 AUCAGCA GUU CCACCACU 1439 AGUGGUGG AGAA GCUGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5595 2321 AGCCUCA GAU CACUUGGU 1440 ACCAAGUG AGAA GAGGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5596 2396 GCACGCU GUU UAUUGAAA 1441 UUUCAAUA AGAA GCGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5597 2490 CCUCACU GUU CAAGGAAC 1442 GUUCCUUG AGAA GUGAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5598 2525 UGGAGCU GAU CACUCUAA 1443 UUAGAGUG AGAA GCUCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5599 2625 AAAGACU GAC UACCUAUC 1444 GAUAGGUA AGAA GUCUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5600 2652 GGACCCA GAU GAAGUUCC 1445 GGAACUUC AGAA GGGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5601 2684 GUGAGCG GCU CCCUUAUG 1446 CAUAAGGG AGAA GCUCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5602 2816 CGUGCCG GAC UGUGGCUG 1447 CAGCCACA AGAA GGCACG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5603 2873 AAGCUCU GAU GACUGAGC 1448 GCUCAGUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5604 2930 UUAACCU GCU GGGAGCCU 1449 AGGCUCCC AGAA GGUUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5605 2963 GGCCUCU GAU GGUGAUUG 1450 CAAUCACC AGAA GAGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5606 3157 AGCUCCG GCU UUCAGGAA 1451 UUCCUGAA AGAA GGAGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5607 3207 GGAUUCU GAC GGUUUCUA 1452 UAGAAACC AGAA GAAUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5608 3211 UCUGACG GUU UCUACAAG 1453 CUUGUAGA AGAA GUCAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5609 3245 AAGAUCU GAU UUCUUACA 1454 UGUAAGAA AGAA GAUCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5610 3256 UCUUACA GUU UUCAAGUG 1455 CACUUGAA AGAA GUAAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5611 3287 AGUUCCU GUC UUCCAGAA 1456 UUCUGGAA AGAA GGAACU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5612 3402 GAACCCC GAU UAUGUGAG 1457 CUCACAUA AGAA GGGUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5613 3580 UUUUGCA GUC GCCUGAGG 1458 CCUCAGGC AGAA GCAAAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5614 3641 UCUAUCA GAU CAUGCUGG 1459 CCAGCAUG AGAA GAUAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5615 3655 CUGGACU GCU GGCACAGA 1460 UCUGUGCC AGAA GUCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5616 3810 AACUCCU GCC UUCUCUGA 1461 UCAGAGAA AGAA GGAGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5617 3846 UAUUUCA GCU CCGAAGUU 1462 AACUUCGG AGAA GAAAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5618 3873 AAGCUCU GAU GAUGUCAG 1463 CUGACAUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5619 3995 GCACUCU GUU GGCCUCUC 1464 GAGAGGCC AGAA GAGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5620 4100 CGGGGCU GUC UGAUGUCA 1465 UGACAUCA AGAA GCCCCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5621 4104 GCUGUCU GAU GUCAGCAG 1466 CUGCUGAC AGAA GACAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5622 4120 AGGCCCA GUU UCUGCCAU 1467 AUGGCAGA AGAA GGGCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5623 4135 CAUUCCA GCU GUGGGCAC 1468 GUGCCCAC AGAA GGAAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5624 4210 GCGUGCU GCU CCCCGCCC 1469 GGGCGGGG AGAA GCACGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5625 4217 GCUCCCC GCC CCCAGACU 1470 AGUCUGGG AGAA GGGAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5626 4224 GCCCCCA GAC UACAACUC 1471 GAGUUGUA AGAA GGGGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5627 4382 GGAGCCA GCU GCUUUUUG 1472 CAAAAAGC AGAA GGCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5628 4385 GCCAGCU GCU UUUUGUGA 1473 UCACAAAA AGAA GCUGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5629 4537 CUUCCCU GCU CCAACCCC 1474 GGGGUUGG AGAA GGGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5630 4573 AGGACCA GUU UGAUUGAG 1475 CUCAAUCA AGAA GGUCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5631 4594 CUGCACU GAU CACCCAAU 1476 AUUGGGUG AGAA GUGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5632 4628 UGGGCCA GCC CUGCAGCC 1477 GGCUGCAG AGAA GGCCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5633 4636 CCCUGCA GCC CAAAACCC 1478 GGGUUUUG AGAA GCAGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5634 4866 CUUCCCA GCU CUGACCCU 1479 AGGGUCAG AGAA GGGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5635 4871 CAGCUCU GAC CCUUCUAC 1480 GUAGAAGG AGAA GAGCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5636 4905 AGGACCA GAU GGACAGCG 1481 CGCUGUCC AGAA GCUCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5637 5233 UUAUUCU GUU UUGCACAG 1482 CUGUGCAA AGAA GAAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5638 5281 AAAUGCA GUC CUGAGGAG 1483 CUCCUCAG AGAA GCAUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5639 5319 GAGGGCU GAU GGAGGAAA 1484 UUUCCUCC AGAA GCCCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5640 5358 AGACCCC GUC UCUAUACC 1485 GGUAUAGA AGAA GGGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5641 5392 CAACACA GUU GGGACCCA 1486 UGGGUCCC AGAA GUGUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5642 5563 UUCUCCA GUU GGGACUCA 1487 UGAGUCCC AGAA GGAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5643 5622 UUCAACU GCU UUGAAACU 1488 AGUUUCAA AGAA GUUGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5644 5738 UGGCUCU GUU UGAUGCUA 1489 UAGCAUCA AGAA GAGCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5645 5838 UGGCUCU GUU UGAUGCUA 1489 UAGCAUCA AGAA GAGCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5645 5933 GAUUGCU GCU UCUUGGGG 1490 CCCCAAGA AGAA GCAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5646 6022 UGCCUCU GUU CUUAUGUG 1491 CACAUAAG AGAA GAGGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5647 6120 GGCAGCG GCU UUUGUGGA 1492 UCCACAAA AGAA GCUGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5648 6163 UGGGACA GUC CUCUCCAC 1493 GUGGAGAG AGAA GUCCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5649 6270 UGUGACA GCU GGCAAUUU 1494 AAAUUGCC AGAA GUCACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5650 6412 CUUAGCU GUU CAUGUCUU 1495 AAGACAUG AGAA GCUAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5651 6511 UUACUCA GCU CCUUCAAA 1496 UUUGAAGG AGAA GAGUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5652 6778 UGGAACA GUC UGGGUGGA 1497 UCCACCCA AGAA GUUCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5653 6826 CUUGUCA GUC CAAGAAGU 1498 ACUUCUUG AGAA GACAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5654 7245 GGCAACU GCU UUUAUGUU 1499 AACAUAAA AGAA GUUGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5655 7258 AUGUUCU GUC UCCUUCCA 1500 UGGAAGGA AGAA GAACAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5656 7433 UUUAGCU GAU UGUAUGGG 1501 CCCAUACA AGAA GCUAAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5657 7512 AAUUCCU GUC CAUGAAAA 1502 UUUUCAUG AGAA GGAAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5658 7606 CAUUUCA GCC UGAAUGUC 1503 GACAUUCA AGAA GAAAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5659 7618 AAUGUCU GCC UAUAUAUU 1504 AAUAUAUA AGAA GACAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5660 7633 AUUCUCU GCU CUUUGUAU 1505 AUACAAAG AGAA GAGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5661

TABLE IV Human KDR VEGF Receptor-Hammerhead Ribozyme and Substrate Sequence Seq ID Seq ID Pos Substrate No HH Ribozyme Sequence No 21 CUGGCCGUC GCCCUGUG 1506 CACAGGGC CUGAUGAGGNNNNNNNNCCGAA ACGGCCAG 5662 33 CUGUGGCUC UGCGUGGA 1507 UCCACGCA CUGAUGAGGNNNNNNNNCCGAA AGCCACAG 5663 56 GGCCGCCUC UGUGGGUU 1508 AACCCACA CUGAUGAGGNNNNNNNNCCGAA AGGCGGCC 5664 64 CUGUGGGUU UGCCUAGU 1509 ACUAGGCA CUGAUGAGGNNNNNNNNCCGAA ACCCACAG 5665 65 UGUGGGUUU GCCUAGUG 1510 CACUAGGC CUGAUGAGGNNNNNNNNCCGAA AACCCACA 5666 70 GUUUGCCUA GUGUUUCU 1511 AGAAACAC CUGAUGAGGNNNNNNNNCCGAA AGGCAAAC 5667 75 CCUAGUGUU UCUCUUGA 1512 UCAAGAGA CUGAUGAGGNNNNNNNNCCGAA ACACUAGG 5668 76 CUAGUGUUU CUCUUGAU 1513 AUCAAGAG CUGAUGAGGNNNNNNNNCCGAA AACACUAG 5669 77 UAGUGUUUC UCUUGAUC 1514 GAUCAAGA CUGAUGAGGNNNNNNNNCCGAA AAACACUA 5670 79 GUGUUUCUC UUGAUCUG 1515 CAGAUCAA CUGAUGAGGNNNNNNNNCCGAA AGAAACAC 5671 81 GUUUCUCUU GAUCUGCC 1516 GGCAGAUC CUGAUGAGGNNNNNNNNCCGAA AGAGAAAC 5672 85 CUCUUGAUC UGCCCAGG 1517 CCUGGGCA CUGAUGAGGNNNNNNNNCCGAA AUCAAGAG 5673 96 CCCAGGCUC AGCAUACA 1518 UGUAUGCU CUGAUGAGGNNNNNNNNCCGAA AGCCUGGG 5674 102 CUCAGCAUA CAAAAAGA 1519 UCUUUUUG CUGAUGAGGNNNNNNNNCCGAA AUGCUGAG 5675 114 AAAGACAUA CUUACAAU 1520 AUUGUAAG CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU 5676 117 GACAUACUU ACAAUUAA 1521 UUAAUUGU CUGAUGAGGNNNNNNNNCCGAA AGUAUGUC 5677 118 ACAUACUUA CAAUUAAG 1522 CUUAAUUG CUGAUGAGGNNNNNNNNCCGAA AAGUAUGU 5678 123 CUUACAAUU AAGGCUAA 1523 UUAGCCUU CUGAUGAGGNNNNNNNNCCGAA AUUGUAAG 5679 124 UUACAAUUA AGGCUAAU 1524 AUUAGCCU CUGAUGAGGNNNNNNNNCCGAA AAUUGUAA 5680 130 UUAAGGCUA AUACAACU 1525 AGUUGUAU CUGAUGAGGNNNNNNNNCCGAA AGCCUUAA 5681 133 AGGCUAAUA CAACUCUU 1526 AAGAGUUG CUGAUGAGGNNNNNNNNCCGAA AUUAGCCU 5682 139 AUACAACUC UUCAAAUU 1527 AAUUUGAA CUGAUGAGGNNNNNNNNCCGAA AGUUGUAU 5683 141 ACAACUCUU CAAAUUAC 1528 GUAAUUUG CUGAUGAGGNNNNNNNNCCGAA AGAGUUGU 5684 142 CAACUCUUC AAAUUACU 1529 AGUAAUUU CUGAUGAGGNNNNNNNNCCGAA AAGAGUUG 5685 147 CUUCAAAUU ACUUGCAG 1530 CUGCAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUGAAG 5686 148 UUCAAAUUA CUUGCAGG 1531 CCUGCAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUGAA 5687 151 AAAUUACUU GCAGGGGA 1532 UCCCCUGC CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU 5688 170 GAGGGACUU GGACUGGC 1533 GCCAGUCC CUGAUGAGGNNNNNNNNCCGAA AGUCCCUC 5689 180 GACUGGCUU UGGCCCAA 1534 UUGGGCCA CUGAUGAGGNNNNNNNNCCGAA AGCCAGUC 5690 181 ACUGGCUUU GGCCCAAU 1535 AUUGGGCC CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU 5691 190 GGCCCAAUA AUCAGAGU 1536 ACUCUGAU CUGAUGAGGNNNNNNNNCCGAA AUUGGGCC 5692 193 CCAAUAAUC AGAGUGGC 1537 GCCACUCU CUGAUGAGGNNNNNNNNCCGAA AUUAUUGG 5693 243 GAUGGCCUC UUCUGUAA 1538 UUACAGAA CUGAUGAGGNNNNNNNNCCGAA AGGCCAUC 5694 245 UGGCCUCUU CUGUAAGA 1539 UCUUACAG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCA 5695 246 GGCCUCUUC UGUAAGAC 1540 GUCUUACA CUGAUGAGGNNNNNNNNCCGAA AAGAGGCC 5696 250 UCUUCUGUA AGACACUC 1541 GAGUGUCU CUGAUGAGGNNNNNNNNCCGAA ACAGAAGA 5697 258 AAGACACUC ACAAUUCC 1542 GGAAUUGU CUGAUGAGGNNNNNNNNCCGAA AGUGUCUU 5698 264 CUCACAAUU CCAAAAGU 1543 ACUUUUGG CUGAUGAGGNNNNNNNNCCGAA AUUGUGAG 5699 265 UCACAAUUC CAAAAGUG 1544 CACUUUUG CUGAUGAGGNNNNNNNNCCGAA AAUUGUGA 5700 276 AAAGUGAUC GGAAAUGA 1545 UCAUUUCC CUGAUGAGGNNNNNNNNCCGAA AUCACUUU 5701 296 UGGAGCCUA CAAGUGCU 1546 AGCACUUG CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA 5702 305 CAAGUGCUU CUACCGGG 1547 CCCGGUAG CUGAUGAGGNNNNNNNNCCGAA AGCACUUG 5703 306 AAGUGCUUC UACCGGGA 1548 UCCCGGUA CUGAUGAGGNNNNNNNNCCGAA AAGCACUU 5704 308 GUGCUUCUA CCGGGAAA 1549 UUUCCCGG CUGAUGAGGNNNNNNNNCCGAA AGAAGCAC 5705 323 AACUGACUU GGGCUCGG 1550 CCGAGGCC CUGAUGAGGNNNNNNNNCCGAA AGUCAGUU 5706 329 CUUGGCCUC GGUCAUUU 1551 AAAUGACC CUGAUGAGGNNNNNNNNCCGAA AGGCCAAG 5707 333 GCCUCGGUC AUUUAUGU 1552 ACAUAAAU CUGAUGAGGNNNNNNNNCCGAA ACCGAGGC 5708 336 UCGGUCAUU UAUGUCUA 1553 UAGACAUA CUGAUGAGGNNNNNNNNCCGAA AUGACCGA 5709 337 CGGUCAUUU AUGUCUAU 1554 AUAGACAU CUGAUGAGGNNNNNNNNCCGAA AAUGACCG 5710 338 GGUCAUUUA UGUCUAUG 1555 CAUAGACA CUGAUGAGGNNNNNNNNCCGAA AAAUGACC 5711 342 AUUUAUGUC UAUGUUCA 1556 UGAACAUA CUGAUGAGGNNNNNNNNCCGAA ACAUAAAU 5712 344 UUAUGUCUA UGUUCAAG 1557 CUUGAACA CUGAUGAGGNNNNNNNNCCGAA AGACAUAA 5713 348 GUCUAUGUU CAAGAUUA 1558 UAAUCUUG CUGAUGAGGNNNNNNNNCCGAA AGAUAGAC 5714 349 UCUAUGUUC AAGAUUAC 1559 GUAAUCUU CUGAUGAGGNNNNNNNNCCGAA AACAUAGA 5715 355 UUCAAGAUU ACAGAUCU 1560 AGAUCUGU CUGAUGAGGNNNNNNNNCCGAA AUCUUGAA 5716 356 UCAAGAUUA CAGAUCUC 1561 GAGAUCUG CUGAUGAGGNNNNNNNNCCGAA AAUCUUGA 5717 362 UUACAGAUC UCCAUUUA 1562 UAAAUGGA CUGAUGAGGNNNNNNNNCCGAA AUCUGUAA 5718 364 ACAGAUCUC CAUUUAUU 1563 AAUAAAUG CUGAUGAGGNNNNNNNNCCGAA AGAUCUGU 5719 368 AUCUCCAUU UAUUGCUU 1564 AAGCAAUA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAU 5720 369 UCUCCAUUU AUUGCUUC 1565 GAAGCAAU CUGAUGAGGNNNNNNNNCCGAA AAUGGAGA 5721 370 CUCCAUUUA UUGCUUCU 1566 AGAAGCAA CUGAUGAGGNNNNNNNNCCGAA AAAUGGAG 5722 372 CCAUUUAUU GCUUCUGU 1567 ACAGAAGC CUGAUGAGGNNNNNNNNCCGAA AUAAAUGG 5723 376 UUAUUGCUU CUGUUAGU 1568 ACUAACAG CUGAUGAGGNNNNNNNNCCGAA AGCAAUAA 5724 377 UAUUGCUUC UGUUAGUG 1569 CACUAACA CUGAUGAGGNNNNNNNNCCGAA AAGCAAUA 5725 381 GCUUCUGUU AGUGACCA 1570 UGGUCACU CUGAUGAGGNNNNNNNNCCGAA ACAGAAGC 5726 382 CUUCUGUUA GUGACCAA 1571 UUGGUCAC CUGAUGAGGNNNNNNNNCCGAA AACAGAAG 5727 399 CAUGGAGUC GUGUACAU 1572 AUGUACAC CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG 5728 404 AGUCGUGUA CAUUACUG 1573 CAGUAAUG CUGAUGAGGNNNNNNNNCCGAA ACACGACU 5729 408 GUGUACAUU ACUGAGAA 1574 UUCUCAGU CUGAUGAGGNNNNNNNNCCGAA AUGUACAC 5730 409 UGUACAUUA CUGAGAAC 1575 GUUCUCAG CUGAUGAGGNNNNNNNNCCGAA AAUGUACA 5731 438 GUGGUGAUU CCAUGUCU 1576 AGACAUGG CUGAUGAGGNNNNNNNNCCGAA AUCACCAC 5732 439 UGGUGAUUC CAUGUCUC 1577 GAGACAUG CUGAUGAGGNNNNNNNNCCGAA AAUCACCA 5733 445 UUCCAUGUC UCGGGUCC 1578 GGACCCGA CUGAUGAGGNNNNNNNNCCGAA ACAUGGAA 5734 447 CCAUGUCUC GGGUCCAU 1579 AUGGACCC CUGAUGAGGNNNNNNNNCCGAA AGACAUGG 5735 452 UCUCGGGUC CAUUUCAA 1580 UUGAAAUG CUGAUGAGGNNNNNNNNCCGAA ACCCGAGA 5736 456 GGGUCCAUU UCAAAUCU 1581 AGAUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGACCC 5737 457 GGUCCAUUU CAAAUCUC 1582 GAGAUUUG CUGAUGAGGNNNNNNNNCCGAA AAUGGACC 5738 458 GUCCAUUUC AAAUCUCA 1583 UGAGAUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGGAC 5739 463 UUUCAAAUC UCAACGUG 1584 CACGUUGA CUGAUGAGGNNNNNNNNCCGAA AUUUGAAA 5740 465 UCAAAUCUC AACGUGUC 1585 GACACGUU CUGAUGAGGNNNNNNNNCCGAA AGAUUUGA 5741 473 CAACGUGUC ACUUUGUG 1586 CACAAAGU CUGAUGAGGNNNNNNNNCCGAA ACACGUUG 5742 477 GUGUCACUU UGUGCAAG 1587 CUUGCACA CUGAUGAGGNNNNNNNNCCGAA AGUGACAC 5743 478 UGUCACUUU GUGCAAGA 1588 UCUUGCAC CUGAUGAGGNNNNNNNNCCGAA AAGUGACA 5744 488 UGCAAGAUA CCCAGAAA 1589 UUUCUGGG CUGAUGAGGNNNNNNNNCCGAA AUCUUGCA 5745 503 AAAGAGAUU UGUUCCUG 1590 CAGGAACA CUGAUGAGGNNNNNNNNCCGAA AUCUCUUU 5746 504 AAGAGAUUU GUUCCUGA 1591 UCAGGAAC CUGAUGAGGNNNNNNNNCCGAA AAUCUCUU 5747 507 AGAUUUGUU CCUGAUGG 1592 CCAUCAGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUCU 5748 508 GAUUUGUUC CUGAUGGU 1593 ACCAUCAG CUGAUGAGGNNNNNNNNCCGAA AACAAAUC 5749 517 CUGAUGGUA ACAGAAUU 1594 AAUUCUGU CUGAUGAGGNNNNNNNNCCGAA ACCAUCAG 5750 525 AACAGAAUU UCCUGGGA 1595 UCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU 5751 526 ACAGAAUUU CCUGGGAC 1596 GUCCCAGG CUGAUGAGGNNNNNNNNCCGAA AAUUCUGU 5752 527 CAGAAUUUC CUGGGACA 1597 UGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AAAUUCUG 5753 548 GAAGGGCUU UACUAUUC 1598 GAAUAGUA CUGAUGAGGNNNNNNNNCCGAA AGCCCUUC 5754 549 AAGGGCUUU ACUAUUCC 1599 GGAAUAGU CUGAUGAGGNNNNNNNNCCGAA AAGCCCUU 5755 550 AGGGCUUUA CUAUUCCC 1600 GGGAAUAG CUGAUGAGGNNNNNNNNCCGAA AAAGCCCU 5756 553 GCUUUACUA UUCCCAGC 1601 GCUGGGAA CUGAUGAGGNNNNNNNNCCGAA AGUAAAGC 5757 555 UUUACUAUU CCCAGCUA 1602 UAGCUGGG CUGAUGAGGNNNNNNNNCCGAA AUAGUAAA 5758 556 UUACUAUUC CCAGCUAC 1603 GUAGCUGG CUGAUGAGGNNNNNNNNCCGAA AAUAGUAA 5759 563 UCCCAGCUA CAUGAUCA 1604 UGAUCAUG CUGAUGAGGNNNNNNNNCCGAA AGCUGGGA 5760 570 UACAUGAUC AGCUAUGC 1605 GCAUAGCU CUGAUGAGGNNNNNNNNCCGAA AUCAUGUA 5761 575 GAUCAGCUA UGCUGGCA 1606 UGCCAGCA CUGAUGAGGNNNNNNNNCCGAA AGCUGAUC 5762 588 GGCAUGGUC UUCUGUGA 1607 UCACAGAA CUGAUGAGGNNNNNNNNCCGAA ACCAUGCC 5763 590 CAUGGUCUU CUGUGAAG 1608 CUUCACAG CUGAUGAGGNNNNNNNNCCGAA AGACCAUG 5764 591 AUGGUCUUC UGUGAAGC 1609 GCUUCACA CUGAUGAGGNNNNNNNNCCGAA AAGACCAU 5765 606 GCAAAAAUU AAUGAUGA 1610 UCAUCAUU CUGAUGAGGNNNNNNNNCCGAA AUUUUUGC 5766 607 CAAAAAUUA AUGAUGAA 1611 UUCAUCAU CUGAUGAGGNNNNNNNNCCGAA AAUUUUUG 5767 619 AUGAAAGUU ACCAGUCU 1612 AGACUGGU CUGAUGAGGNNNNNNNNCCGAA ACUUUCAU 5768 620 UGAAAGUUA CCAGUCUA 1613 UAGACUGG CUGAUGAGGNNNNNNNNCCGAA AACUUUCA 5769 626 UUACCAGUC UAUUAUGU 1614 ACAUAAUA CUGAUGAGGNNNNNNNNCCGAA ACUGGUAA 5770 628 ACCAGUCUA UUAUGUAC 1615 GUACAUAA CUGAUGAGGNNNNNNNNCCGAA AGACUGGU 5771 630 CAGUCUAUU AUGUACAU 1616 AUGUACAU CUGAUGAGGNNNNNNNNCCGAA AUAGACUG 5772 631 AGUCUAUUA UGUACAUA 1617 UAUGUACA CUGAUGAGGNNNNNNNNCCGAA AAUAGACU 5773 635 UAUUAUGUA CAUAGUUG 1618 CAACUAUG CUGAUGAGGNNNNNNNNCCGAA ACAUAAUA 5774 639 AUGUACAUA GUUGUCGU 1619 ACGACAAC CUGAUGAGGNNNNNNNNCCGAA AUGUACAU 5775 642 UACAUAGUU GUCGUUGU 1620 ACAACGAC CUGAUGAGGNNNNNNNNCCGAA ACUAUGUA 5776 645 AUAGUUGUC GUUGUAGG 1621 CCUACAAC CUGAUGAGGNNNNNNNNCCGAA ACAACUAU 5777 648 GUUGUCGUU GUAGGGUA 1622 UACCCUAC CUGAUGAGGNNNNNNNNCCGAA ACGACAAC 5778 651 GUCGUUGUA GGGUAUAG 1623 CUAUACCC CUGAUGAGGNNNNNNNNCCGAA ACAACGAC 5779 656 UGUAGGGUA UAGGAUUU 1624 AAAUCCUA CUGAUGAGGNNNNNNNNCCGAA ACCCUACA 5780 658 UAGGGUAUA GGAUUUAU 1625 AUAAAUCC CUGAUGAGGNNNNNNNNCCGAA AUACCCUA 5781 663 UAUAGGAUU UAUGAUGU 1626 ACAUCAUA CUGAUGAGGNNNNNNNNCCGAA AUCCUAUA 5782 664 AUAGGAUUU AUGAUGUG 1627 CACAUCAU CUGAUGAGGNNNNNNNNCCGAA AAUCCUAU 5783 665 UAGGAUUUA UGAUGUGG 1628 CCACAUCA CUGAUGAGGNNNNNNNNCCGAA AAAUCCUA 5784 675 GAUGUGGUU CUGAGUCC 1629 GGACUCAG CUGAUGAGGNNNNNNNNCCGAA ACCACAUC 5785 676 AUGUGGUUC UGAGUCCG 1630 CGGACUCA CUGAUGAGGNNNNNNNNCCGAA AACCACAU 5786 682 UUCUGAGUC CGUCUCAU 1631 AUGAGACG CUGAUGAGGNNNNNNNNCCGAA ACUCAGAA 5787 686 GAGUCCGUC UCAUGGAA 1632 UUCCAUGA CUGAUGAGGNNNNNNNNCCGAA ACGGACUC 5788 688 GUCCGUCUC AUGGAAUU 1633 AAUUCCAU CUGAUGAGGNNNNNNNNCCGAA AGACGGAC 5789 696 CAUGGAAUU GAACUAUC 1634 GAUAGUUC CUGAUGAGGNNNNNNNNCCGAA AUUCCAUG 5790 702 AUUGAACUA UCUGUUGG 1635 CCAACAGA CUGAUGAGGNNNNNNNNCCGAA AGUUCAAU 5791 704 UGAACUAUC UGUUGGAG 1636 CUCCAACA CUGAUGAGGNNNNNNNNCCGAA AUAGUUCA 5792 708 CUAUCUGUU GGAGAAAA 1637 UUUUCUCC CUGAUGAGGNNNNNNNNCCGAA ACAGAUAG 5793 720 GAAAAGCUU GUCUUAAA 1638 UUUAAGAC CUGAUGAGGNNNNNNNNCCGAA AGCUUUUC 5794 723 AAGCUUGUC UUAAAUUG 1639 CAAUUUAA CUGAUGAGGNNNNNNNNCCGAA ACAAGCUU 5795 725 GCUUGUCUU AAAUUGUA 1640 UACAAUUU CUGAUGAGGNNNNNNNNCCGAA AGACAAGC 5796 726 CUUGUCUUA AAUUGUAC 1641 GUACAAUU CUGAUGAGGNNNNNNNNCCGAA AAGACAAG 5797 730 UCUUAAAUU GUACAGCA 1642 UGGUGUAC CUGAUGAGGNNNNNNNNCCGAA AUUUAAGA 5798 733 UAAAUUGUA CAGCAAGA 1643 UCUUGCUG CUGAUGAGGNNNNNNNNCCGAA ACAAUUUA 5799 750 ACUGAACUA AAUGUGGG 1644 CCCACAUU CUGAUGAGGNNNNNNNNCCGAA AGUUCAGU 5800 762 GUGGGGAUU GACUUCAA 1645 UUGAAGUC CUGAUGAGGNNNNNNNNCCGAA AUCCCCAC 5801 767 GAUUGACUU CAACUGGG 1646 CCCAGUUG CUGAUGAGGNNNNNNNNCCGAA AGUCAAUC 5802 768 AUUGACUUC AACUGGGA 1647 UCCCAGUU CUGAUGAGGNNNNNNNNCCGAA AAGUCAAU 5803 779 CUGGGAAUA CCCUUCUU 1648 AAGAAGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAG 5804 784 AAUACCCUU CUUCGAAG 1649 CUUCGAAG CUGAUGAGGNNNNNNNNCCGAA AGGGUAUU 5805 785 AUACCCUUC UUCGAAGC 1650 GCUUCGAA CUGAUGAGGNNNNNNNNCCGAA AAGGGUAU 5806 787 ACCCUUCUU CGAAGCAU 1651 AUGCUUCG CUGAUGAGGNNNNNNNNCCGAA AGAAGGGU 5807 788 CCCUUCUUC GAAGCAUC 1652 GAUGCUUC CUGAUGAGGNNNNNNNNCCGAA AAGAAGGG 5808 796 CGAAGCAUC AGCAUAAG 1653 CUUAUGCU CUGAUGAGGNNNNNNNNCCGAA AUGCUUCG 5809 802 AUCAGCAUA AGAAACUU 1654 AAGUUUCU CUGAUGAGGNNNNNNNNCCGAA AUGCUGAU 5810 810 AAGAAACUU GUAAACCG 1655 CGGUUUAC CUGAUGAGGNNNNNNNNCCGAA AGUUUCUU 5811 813 AAACUUGUA AACCGAGA 1656 UCUCGGUU CUGAUGAGGNNNNNNNNCCGAA ACAAGUUU 5812 825 CGAGACCUA AAAACCCA 1657 UGGGUUUU CUGAUGAGGNNNNNNNNCCGAA AGGUCUCG 5813 836 AACCCAGUC UGGGAGUG 1658 CACUCCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGGUU 5814 857 GAAGAAAUU UUUGAGCA 1659 UGCUCAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCUUC 5815 858 AAGAAAUUU UUGAGCAC 1660 GUGCUCAA CUGAUGAGGNNNNNNNNCCGAA AAUUUCUU 5816 859 AGAAAUUUU UGAGCACC 1661 GGUGCUCA CUGAUGAGGNNNNNNNNCCGAA AAAUUUCU 5817 860 GAAAUUUUU GAGCACCU 1662 AGGUGCUC CUGAUGAGGNNNNNNNNCCGAA AAAAUUUC 5818 869 GAGCACCUU AACUAUAG 1663 CUAUAGUU CUGAUGAGGNNNNNNNNCCGAA AGGUGCUC 5819 870 AGCACCUUA ACUAUAGA 1664 UCUAUAGU CUGAUGAGGNNNNNNNNCCGAA AAGGUGCU 5820 874 CCUUAACUA UAGAUGGU 1665 ACCAUCUA CUGAUGAGGNNNNNNNNCCGAA AGUUAAGG 5821 876 UUAACUAUA GAUGGUGU 1666 ACACCAUC CUGAUGAGGNNNNNNNNCCGAA AUAGUUAA 5822 885 GAUGGUGUA ACCCGGAG 1667 CUCCGGGU CUGAUGAGGNNNNNNNNCCGAA ACACCAUC 5823 905 CCAAGGAUU GUACACCU 1668 AGGUGUAC CUGAUGAGGNNNNNNNNCCGAA AUCCUUGG 5824 908 AGGAUUGUA CACCUGUG 1669 CACAGGUG CUGAUGAGGNNNNNNNNCCGAA ACAAUCCU 5825 923 UGCAGCAUC CAGUGGGC 1670 GCCCACUG CUGAUGAGGNNNNNNNNCCGAA AUGCUGCA 5826 956 CAGCACAUU UGUCAGGG 1671 CCCUGACA CUGAUGAGGNNNNNNNNCCGAA AUGUGCUG 5827 957 AGCACAUUU GUCAGGGU 1672 ACCCUGAC CUGAUGAGGNNNNNNNNCCGAA AAUGUGCU 5828 960 ACAUUUGUC AGGGUCCA 1673 UGGACCCU CUGAUGAGGNNNNNNNNCCGAA ACAAAUGU 5829 966 GUCAGGGUC CAUGAAAA 1674 UUUUCAUG CUGAUGAGGNNNNNNNNCCGAA ACCCUGAC 5830 979 AAAAACCUU UUGUUGCU 1675 AGCAACAA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU 5831 980 AAAACCUUU UGUUGCUU 1676 AAGCAACA CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU 5832 981 AAACCUUUU GUUGCUUU 1677 AAAGCAAC CUGAUGAGGNNNNNNNNCCGAA AAAGGUUU 5833 984 CCUUUUGUU GCUUUUGG 1678 CCAAAAGC CUGAUGAGGNNNNNNNNCCGAA ACAAAAGG 5834 988 UUGUUGCUU UUGGAAGU 1679 ACUUCCAA CUGAUGAGGNNNNNNNNCCGAA AGCAACAA 5835 989 UGUUGCUUU UGGAAGUG 1680 CACUUCCA CUGAUGAGGNNNNNNNNCCGAA AAGCAACA 5836 990 GUUGCUUUU GGAAGUGG 1681 CCACUUCC CUGAUGAGGNNNNNNNNCCGAA AAAGCAAC 5837 1007 CAUGGAAUC UCUGGUGG 1682 CCACCAGA CUGAUGAGGNNNNNNNNCCGAA AUUCCAUG 5838 1009 UGGAAUCUC UGGUGGAA 1683 UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AGAUUCCA 5839 1038 GAGCGUGUC AGAAUCCC 1684 GGGAUUCU CUGAUGAGGNNNNNNNNCCGAA ACACGCUC 5840 1044 GUCAGAAUC CCUGCGAA 1685 UUCGCAGG CUGAUGAGGNNNNNNNNCCGAA AUUCUGAC 5841 1055 UGCGAAGUA CCUUGGUU 1686 AACCAAGG CUGAUGAGGNNNNNNNNCCGAA ACUUCGCA 5842 1059 AAGUACCUU GGUUACCC 1687 GGGUAACC CUGAUGAGGNNNNNNNNCCGAA AGGUACUU 5843 1063 ACCUUGGUU ACCCACCC 1688 GGGUGGGU CUGAUGAGGNNNNNNNNCCGAA ACCAAGGU 5844 1064 CCUUGGUUA CCCACCCC 1689 GGGGUGGG CUGAUGAGGNNNNNNNNCCGAA AACCAAGG 5845 1080 CCAGAAAUA AAAUGGUA 1690 UACCAUUU CUGAUGAGGNNNNNNNNCCGAA AUUUCUGG 5846 1088 AAAAUGGUA UAAAAAUG 1691 CAUUUUUA CUGAUGAGGNNNNNNNNCCGAA ACCAUUUU 5847 1090 AAUGGUAUA AAAAUGGA 1692 UCCAUUUU CUGAUGAGGNNNNNNNNCCGAA AUACCAUU 5848 1101 AAUGGAAUA CCCCUUGA 1693 UCAAGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCAUU 5849 1107 AUACCCCUU GAGUCCAA 1694 UUGGACUC CUGAUGAGGNNNNNNNNCCGAA AGGGGUAU 5850 1112 CCUUGAGUC CAAUCACA 1695 UGUGAUUG CUGAUGAGGNNNNNNNNCCGAA ACUCAAGG 5851 1117 AGUCCAAUC ACACAAUU 1696 AAUUGUGU CUGAUGAGGNNNNNNNNCCGAA AUUGGACU 5852 1125 CACACAAUU AAAGCGGG 1697 CCCGCUUU CUGAUGAGGNNNNNNNNCCGAA AUUGUGUG 5853 1126 ACACAAUUA AAGCGGGG 1698 CCCCGCUU CUGAUGAGGNNNNNNNNCCGAA AAUUGUGU 5854 1140 GGGCAUGUA CUGACGAU 1699 AUCGUCAG CUGAUGAGGNNNNNNNNCCGAA ACAUGCCC 5855 1149 CUGACGAUU AUGGAAGU 1700 ACUUCCAU CUGAUGAGGNNNNNNNNCCGAA AUCGUCAG 5856 1150 UGACGAUUA UGGAAGUG 1701 CACUUCCA CUGAUGAGGNNNNNNNNCCGAA AAUCGUCA 5857 1180 CAGGAAAUU ACACUGUC 1702 GACAGUGU CUGAUGAGGNNNNNNNNCCGAA AUUUCCUG 5858 1181 AGGAAAUUA CACUGUCA 1703 UGACAGUG CUGAUGAGGNNNNNNNNCCGAA AAUUUCCU 5859 1188 UACACUGUC AUCCUUAC 1704 GUAAGGAU CUGAUGAGGNNNNNNNNCCGAA ACAGUGUA 5860 1191 ACUGUCAUC CUUACCAA 1705 UUGGUAAG CUGAUGAGGNNNNNNNNCCGAA AUGACAGU 5861 1194 GUCAUCCUU ACCAAUCC 1706 GGAUUGGU CUGAUGAGGNNNNNNNNCCGAA AGGAUGAC 5862 1195 UCAUCCUUA CCAAUCCC 1707 GGGAUUGG CUGAUGAGGNNNNNNNNCCGAA AAGGAUGA 5863 1201 UUACCAAUC CCAUUUCA 1708 UGAAAUGG CUGAUGAGGNNNNNNNNCCGAA AUUGGUAA 5864 1206 AAUCCCAUU UCAAAGGA 1709 UCCUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGGAUU 5865 1207 AUCCCAUUU CAAAGGAG 1710 CUCCUUUG CUGAUGAGGNNNNNNNNCCGAA AAUGGGAU 5866 1208 UCCCAUUUC AAAGGAGA 1711 UCUCCUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGGGA 5867 1233 CAUGUGGUC UCUCUGGU 1712 ACCAGAGA CUGAUGAGGNNNNNNNNCCGAA ACCACAUG 5868 1235 UGUGGUCUC UCUGGUUG 1713 CAACCAGA CUGAUGAGGNNNNNNNNCCGAA AGACCACA 5869 1237 UGGUCUCUC UGGUUGUG 1714 CACAACCA CUGAUGAGGNNNNNNNNCCGAA AGAGACCA 5870 1242 UCUCUGGUU GUGUAUGU 1715 ACAUACAC CUGAUGAGGNNNNNNNNCCGAA ACCAGAGA 5871 1247 GGUUGUGUA UGUCCCAC 1716 GUGGGACA CUGAUGAGGNNNNNNNNCCGAA ACACAACC 5872 1251 GUGUAUGUC CCACCCCA 1717 UGGGGUGG CUGAUGAGGNNNNNNNNCCGAA ACAUACAC 5873 1263 CCCCAGAUU GGUGAGAA 1718 UUCUCACC CUGAUGAGGNNNNNNNNCCGAA AUCUGGGG 5874 1274 UGAGAAAUC UCUAAUCU 1719 AGAUUAGA CUGAUGAGGNNNNNNNNCCGAA AUUUCUCA 5875 1276 AGAAAUCUC UAAUCUCU 1720 AGAGAUUA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCU 5876 1278 AAAUCUCUA AUCUCUCC 1721 GGAGAGAU CUGAUGAGGNNNNNNNNCCGAA AGAGAUUU 5877 1281 UCUCUAAUC UCUCCUGU 1722 ACAGGAGA CUGAUGAGGNNNNNNNNCCGAA AUUAGAGA 5878 1283 UCUAAUCUC UCCUGUGG 1723 CCACAGGA CUGAUGAGGNNNNNNNNCCGAA AGAUUAGA 5879 1285 UAAUCUCUC CUGUGGAU 1724 AUCCACAG CUGAUGAGGNNNNNNNNCCGAA AGAGAUUA 5880 1294 CUGUGGAUU CCUACCAG 1725 CUGGUAGG CUGAUGAGGNNNNNNNNCCGAA AUCCACAG 5881 1295 UGUGGAUUC CUACCAGU 1726 ACUGGUAG CUGAUGAGGNNNNNNNNCCGAA AAUCCACA 5882 1298 GGAUUCCUA CCAGUACG 1727 CGUACUGG CUGAUGAGGNNNNNNNNCCGAA AGGAAUCC 5883 1304 CUACCAGUA CGGCACCA 1728 UGGUGCCG CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG 5884 1315 GCACCACUC AAACGCUG 1729 CAGCGUUU CUGAUGAGGNNNNNNNNCCGAA AGUGGUGC 5885 1330 UGACAUGUA CGGUCUAU 1730 AUAGACCG CUGAUGAGGNNNNNNNNCCGAA ACAUGUCA 5886 1335 UGUACGGUC UAUGCCAU 1731 AUGGCAUA CUGAUGAGGNNNNNNNNCCGAA ACCGUACA 5887 1337 UACGGUCUA UGCCAUUC 1732 GAAUGGCA CUGAUGAGGNNNNNNNNCCGAA AGACCGUA 5888 1344 UAUGCCAUU CCUCCCCC 1733 GGGGGAGG CUGAUGAGGNNNNNNNNCCGAA AUGGCAUA 5889 1345 AUGCCAUUC CUCCCCCG 1734 CGGGGGAG CUGAUGAGGNNNNNNNNCCGAA AAUGGCAU 5890 1348 CCAUUCCUC CCCCGCAU 1735 AUGCGGGG CUGAUGAGGNNNNNNNNCCGAA AGGAAUGG 5891 1357 CCCCGCAUC ACAUCCAC 1736 GUGGAUGU CUGAUGAGGNNNNNNNNCCGAA AUGCGGGG 5892 1362 CAUCACAUC CACUGGUA 1737 UACCAGUG CUGAUGAGGNNNNNNNNCCGAA AUGUGAUG 5893 1370 CCACUGGUA UUGGCAGU 1738 ACUGCCAA CUGAUGAGGNNNNNNNNCCGAA ACCAGUGG 5894 1372 ACUGGUAUU GGCAGUUG 1739 CAACUGCC CUGAUGAGGNNNNNNNNCCGAA AUACCAGU 5895 1379 UUGGCAGUU GGAGGAAG 1740 CUUCCUCC CUGAUGAGGNNNNNNNNCCGAA ACUGCCAA 5896 1416 CAAGCUGUC UCAGUGAC 1741 GUCACUGA CUGAUGAGGNNNNNNNNCCGAA ACAGCUUG 5897 1418 AGCUGUCUC AGUGACAA 1742 UUGUCACU CUGAUGAGGNNNNNNNNCCGAA AGACAGCU 5898 1433 AAACCCAUA CCCUUGUG 1743 CACAAGGG CUGAUGAGGNNNNNNNNCCGAA AUGGGUUU 5899 1438 CAUACCCUU GUGAAGAA 1744 UUCUUCAC CUGAUGAGGNNNNNNNNCCGAA AGGGUAUG 5900 1466 GGAGGACUU CCAGGGAG 1745 CUCCCUGG CUGAUGAGGNNNNNNNNCCGAA AGUCCUCC 5901 1467 GAGGACUUC CAGGGAGG 1746 CCUCCCUG CUGAUGAGGNNNNNNNNCCGAA AAGUCCUC 5902 1480 GAGGAAAUA AAAUUGAA 1747 UUCAAUUU CUGAUGAGGNNNNNNNNCCGAA AUUUCCUC 5903 1485 AAUAAAAUU GAAGUUAA 1748 UUAACUUC CUGAUGAGGNNNNNNNNCCGAA AUUUUAUU 5904 1491 AUUGAAGUU AAUAAAAA 1749 UUUUUAUU CUGAUGAGGNNNNNNNNCCGAA ACUUCAAU 5905 1492 UUGAAGUUA AUAAAAAU 1750 AUUUUUAU CUGAUGAGGNNNNNNNNCCGAA AACUUCAA 5906 1495 AAGUUAAUA AAAAUCAA 1751 UUGAUUUU CUGAUGAGGNNNNNNNNCCGAA AUUAACUU 5907 1501 AUAAAAAUC AAUUUGCU 1752 AGCAAAUU CUGAUGAGGNNNNNNNNCCGAA AUUUUUAU 5908 1505 AAAUCAAUU UGCUCUAA 1753 UUAGAGCA CUGAUGAGGNNNNNNNNCCGAA AUUGAUUU 5909 1506 AAUCAAUUU GCUCUAAU 1754 AUUAGAGC CUGAUGAGGNNNNNNNNCCGAA AAUUGAUU 5910 1510 AAUUUGCUC UAAUUGAA 1755 UUCAAUUA CUGAUGAGGNNNNNNNNCCGAA AGCAAAUU 5911 1512 UUUGCUCUA AUUGAAGG 1756 CCUUCAAU CUGAUGAGGNNNNNNNNCCGAA AGAGCAAA 5912 1515 GCUCUAAUU GAAGGAAA 1757 UUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAGAGC 5913 1536 AAAACUGUA AGUACCCU 1758 AGGGUACU CUGAUGAGGNNNNNNNNCCGAA ACAGUUUU 5914 1540 CUGUAAGUA CCCUUGUU 1759 AACAAGGG CUGAUGAGGNNNNNNNNCCGAA ACUUACAG 5915 1545 AGUACCCUU GUUAUCCA 1760 UGGAUAAC CUGAUGAGGNNNNNNNNCCGAA AGGGUACU 5916 1548 ACCCUUGUU AUCCAAGC 1761 GCUUGGAU CUGAUGAGGNNNNNNNNCCGAA ACAAGGGU 5917 1549 CCCUUGUUA UCCAAGCG 1762 CGCUUGGA CUGAUGAGGNNNNNNNNCCGAA AACAAGGG 5918 1551 CUUGUUAUC CAAGCGGC 1763 GCCGCUUG CUGAUGAGGNNNNNNNNCCGAA AUAACAAG 5919 1568 AAAUGUGUC AGCUUUGU 1764 ACAAAGCU CUGAUGAGGNNNNNNNNCCGAA ACACAUUU 5920 1573 UGUCAGCUU UGUACAAA 1765 UUUGUACA CUGAUGAGGNNNNNNNNCCGAA AGCUGACA 5921 1574 GUCAGCUUU GUACAAAU 1766 AUUUGUAC CUGAUGAGGNNNNNNNNCCGAA AAGCUGAC 5922 1577 AGCUUUGUA CAAAUGUG 1767 CACAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAAAGCU 5923 1593 GAAGCGGUC AACAAAGU 1768 ACUUUGUU CUGAUGAGGNNNNNNNNCCGAA ACCGCUUC 5924 1602 AACAAAGUC GGGAGAGG 1769 CCUCUCCC CUGAUGAGGNNNNNNNNCCGAA ACUUUGUU 5925 1623 AGGGUGAUC UCCUUCCA 1770 UGGAAGGA CUGAUGAGGNNNNNNNNCCGAA AUCACCCU 5926 1625 GGUGAUCUC CUUCCACG 1771 CGUGGAAG CUGAUGAGGNNNNNNNNCCGAA AGAUCACC 5927 1628 GAUCUCCUU CCACGUGA 1772 UCACGUGG CUGAUGAGGNNNNNNNNCCGAA AGGAGAUC 5928 1629 AUCUCCUUC CACGUGAC 1773 GUCACGUG CUGAUGAGGNNNNNNNNCCGAA AAGGAGAU 5929 1645 CCAGGGGUC CUGAAAUU 1774 AAUUUCAG CUGAUGAGGNNNNNNNNCCGAA ACCCCUGG 5930 1653 CCUGAAAUU ACUUUGCA 1775 UGCAAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG 5931 1654 CUGAAAUUA CUUUGCAA 1776 UUGCAAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUCAG 5932 1657 AAAUUACUU UGCAACCU 1777 AGGUUGCA CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU 5933 1658 AAUUACUUU GCAACCUG 1778 CAGGUUGC CUGAUGAGGNNNNNNNNCCGAA AAGUAAUU 5934 1697 GAGCGUGUC UUUGUGGU 1779 ACCACAAA CUGAUGAGGNNNNNNNNCCGAA ACACGCUC 5935 1699 GCGUGUCUU UGUGGUGC 1780 GCACCACA CUGAUGAGGNNNNNNNNCCGAA AGACACGC 5936 1700 CGUGUCUUU GUGGUGCA 1781 UGCACCAC CUGAUGAGGNNNNNNNNCCGAA AAGACACG 5937 1721 AGACAGAUC UACGUUUG 1782 CAAACGUA CUGAUGAGGNNNNNNNNCCGAA AUCUGUCU 5938 1723 ACAGAUCUA CGUUUGAG 1783 CUCAAACG CUGAUGAGGNNNNNNNNCCGAA AGAUCUGU 5939 1727 AUCUACGUU UGAGAACC 1784 GGUUCUCA CUGAUGAGGNNNNNNNNCCGAA ACGUAGAU 5940 1728 UCUACGUUU GAGAACCU 1785 AGGUUCUC CUGAUGAGGNNNNNNNNCCGAA AACGUAGA 5941 1737 GAGAACCUC ACAUGGUA 1786 UACCAUGU CUGAUGAGGNNNNNNNNCCGAA AGGUUCUC 5942 1745 CACAUGGUA CAAGCUUG 1787 CAAGCUUG CUGAUGAGGNNNNNNNNCCGAA ACCAUGUG 5943 1752 UACAAGCUU GGCCCACA 1788 UGUGGGCC CUGAUGAGGNNNNNNNNCCGAA AGCUUGUA 5944 1765 CACAGCCUC UGCCAAUC 1789 GAUUGGCA CUGAUGAGGNNNNNNNNCCGAA AGGCUGUG 5945 1773 CUGCCAAUC CAUGUGGG 1790 CCCACAUG CUGAUGAGGNNNNNNNNCCGAA AUUGGCAG 5946 1787 GGGAGAGUU GCCCACAC 1791 GUGUGGGC CUGAUGAGGNNNNNNNNCCGAA ACUCUCCC 5947 1800 ACACCUGUU UGCAAGAA 1792 UUCUUGCA CUGAUGAGGNNNNNNNNCCGAA ACAGGUGU 5948 1801 CACCUGUUU GCAAGAAC 1793 GUUCUUGC CUGAUGAGGNNNNNNNNCCGAA AACAGGUG 5949 1811 CAAGAACUU GGAUACUC 1794 GAGUAUCC CUGAUGAGGNNNNNNNNCCGAA AGUUCUUG 5950 1816 ACUUGGAUA CUCUUUGG 1795 CCAAAGAG CUGAUGAGGNNNNNNNNCCGAA AUCCAAGU 5951 1819 UGGAUACUC UUUGGAAA 1796 UUUCCAAA CUGAUGAGGNNNNNNNNCCGAA AGUAUCCA 5952 1821 GAUACUCUU UGGAAAUU 1797 AAUUUCCA CUGAUGAGGNNNNNNNNCCGAA AGAGUAUC 5953 1822 AUACUCUUU GGAAAUUG 1798 CAAUUUCC CUGAUGAGGNNNNNNNNCCGAA AAGAGUAU 5954 1829 UUGGAAAUU GAAUGCCA 1799 UGGCAUUC CUGAUGAGGNNNNNNNNCCGAA AUUUCCAA 5955 1844 CACCAUGUU CUCUAAUA 1800 UAUUAGAG CUGAUGAGGNNNNNNNNCCGAA ACAUGGUG 5956 1845 ACCAUGUUC UCUAAUAG 1801 CUAUUAGA CUGAUGAGGNNNNNNNNCCGAA AACAUGGU 5957 1847 CAUGUUCUC UAAUAGCA 1802 UGCUAUUA CUGAUGAGGNNNNNNNNCCGAA AGAACAUG 5958 1849 UGUUCUCUA AUAGCACA 1803 UGUGCUAU CUGAUGAGGNNNNNNNNCCGAA AGAGAACA 5959 1852 UCUCUAAUA GCACAAAU 1804 AUUUGUGC CUGAUGAGGNNNNNNNNCCGAA AUUAGAGA 5960 1866 AAUGACAUU UUGAUCAU 1805 AUGAUCAA CUGAUGAGGNNNNNNNNCCGAA AUGUCAUU 5961 1867 AUGACAUUU UGAUCAUG 1806 CAUGAUCA CUGAUGAGGNNNNNNNNCCGAA AAUGUCAU 5962 1868 UGACAUUUU GAUCAUGG 1807 CCAUGAUC CUGAUGAGGNNNNNNNNCCGAA AAAUGUCA 5963 1872 AUUUUGAUC AUGGAGCU 1808 AGCUCCAU CUGAUGAGGNNNNNNNNCCGAA AUCAAAAU 5964 1881 AUGGAGCUU AAGAAUGC 1809 GCAUUCUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCAU 5965 1882 UGGAGCUUA AGAAUGCA 1810 UGCAUUCU CUGAUGAGGNNNNNNNNCCGAA AAGCUCCA 5966 1892 GAAUGCAUC CUUGCAGG 1811 CCUGCAAG CUGAUGAGGNNNNNNNNCCGAA AUGCAUUC 5967 1895 UGCAUCCUU GCAGGACC 1812 GGUCCUGC CUGAUGAGGNNNNNNNNCCGAA AGGAUGCA 5968 1913 AGGAGACUA UGUCUGCC 1813 GGCAGACA CUGAUGAGGNNNNNNNNCCGAA AGUCUCCU 5969 1917 GACUAUGUC UGCCUUGC 1814 GCAAGGCA CUGAUGAGGNNNNNNNNCCGAA ACAUAGUC 5970 1923 GUCUGCCUU GCUCAAGA 1815 UCUUGAGC CUGAUGAGGNNNNNNNNCCGAA AGGCAGAC 5971 1927 GCCUUGCUC AAGACAGG 1816 CCUGUCUU CUGAUGAGGNNNNNNNNCCGAA AGCAAGGC 5972 1954 AAAGACAUU GCGUGGUC 1817 GACCACGC CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU 5973 1962 UGCGUGGUC AGGCAGCU 1818 AGCUGCCU CUGAUGAGGNNNNNNNNCCGAA ACCACGCA 5974 1971 AGGCAGCUC ACAGUCCU 1819 AGGACUGU CUGAUGAGGNNNNNNNNCCGAA AGCUGCCU 5975 1977 CUCACAGUC CUAGAGCG 1820 CGCUCUAG CUGAUGAGGNNNNNNNNCCGAA ACUGUGAG 5976 1980 ACAGUCCUA GAGCGUGU 1821 ACACGCUC CUGAUGAGGNNNNNNNNCCGAA AGGACUGU 5977 2001 CCCACGAUC ACAGGAAA 1822 UUUCCUGU CUGAUGAGGNNNNNNNNCCGAA AUCGUGGG 5978 2020 UGGAGAAUC AGACGACA 1823 UGUCGUCU CUGAUGAGGNNNNNNNNCCGAA AUUCUCCA 5979 2032 CGACAAGUA UUGGGGAA 1824 UUCCCCAA CUGAUGAGGNNNNNNNNCCGAA ACUUGUCG 5980 2034 ACAAGUAUU GGGGAAAG 1825 CUUUCCCC CUGAUGAGGNNNNNNNNCCGAA AUACUUGU 5981 2046 GAAAGCAUC GAAGUCUC 1826 GAGACUUC CUGAUGAGGNNNNNNNNCCGAA AUGCUUUC 5982 2052 AUCGAAGUC UCAUGCAC 1827 GUGCAUGA CUGAUGAGGNNNNNNNNCCGAA ACUUCGAU 5983 2054 CGAAGUCUC AUGCACGG 1828 CCGUGCAU CUGAUGAGGNNNNNNNNCCGAA AGACUUCG 5984 2066 CACGGCAUC UGGGAAUC 1829 GAUUCCCA CUGAUGAGGNNNNNNNNCCGAA AUGCCGUG 5985 2074 CUGGGAAUC CCCCUCCA 1830 UGGAGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAG 5986 2080 AUCCCCCUC CACAGAUC 1831 GAUCUGUG CUGAUGAGGNNNNNNNNCCGAA AGGGGGAU 5987 2088 CCACAGAUC AUGUGGUU 1832 AACCACAU CUGAUGAGGNNNNNNNNCCGAA AUCUGUGG 5988 2096 CAUGUGGUU UAAAGAUA 1833 UAUCUUUA CUGAUGAGGNNNNNNNNCCGAA ACCACAUG 5989 2097 AUGUGGUUU AAAGAUAA 1834 UUAUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCACAU 5990 2098 UGUGGUUUA AAGAUAAU 1835 AUUAUCUU CUGAUGAGGNNNNNNNNCCGAA AAACCACA 5991 2104 UUAAAGAUA AUGAGACC 1836 GGUCUCAU CUGAUGAGGNNNNNNNNCCGAA AUCUUUAA 5992 2115 GAGACCCUU GUAGAAGA 1837 UCUUCUAC CUGAUGAGGNNNNNNNNCCGAA AGGGUCUC 5993 2118 ACCCUUGUA GAAGACUC 1838 GAGUCUUC CUGAUGAGGNNNNNNNNCCGAA ACAAGGGU 5994 2126 AGAAGACUC AGGCAUUG 1839 CAAUGCCU CUGAUGAGGNNNNNNNNCCGAA AGUCUUCU 5995 2133 UCAGGCAUU GUAUUGAA 1840 UUCAAUAC CUGAUGAGGNNNNNNNNCCGAA AUGCCUGA 5996 2136 GGCAUUGUA UUGAAGGA 1841 UCCUUCAA CUGAUGAGGNNNNNNNNCCGAA ACAAUGCC 5997 2138 CAUUGUAUU GAAGGAUG 1842 CAUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUACAAUG 5998 2160 CGGAACCUC ACUAUCCG 1843 CGGAUAGU CUGAUGAGGNNNNNNNNCCGAA AGGUUCCG 5999 2164 ACCUCACUA UCCGCAGA 1844 UCUGCGGA CUGAUGAGGNNNNNNNNCCGAA AGUGAGGU 6000 2166 CUCACUAUC CGCAGAGU 1845 ACUCUGCG CUGAUGAGGNNNNNNNNCCGAA AUAGUGAG 6001 2196 GAAGGCCUC UACACCUG 1846 CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGGCCUUC 6002 2198 AGGCCUCUA CACCUGCC 1847 GGCAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCU 6003 2220 UGCAGUGUU CUUGGCUG 1848 CAGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACACUGGA 6004 2221 GCAGUGUUC UUGGCUGU 1849 ACAGCCAA CUGAUGAGGNNNNNNNNCCGAA AACACUGC 6005 2223 AGUGUUCUU GGCUGUGC 1850 GCACAGCC CUGAUGAGGNNNNNNNNCCGAA AGAACACU 6006 2246 GGAGGCAUU UUUCAUAA 1851 UUAUGAAA CUGAUGAGGNNNNNNNNCCGAA AUGCCUCC 6007 2247 GAGGCAUUU UUCAUAAU 1852 AUUAUGAA CUGAUGAGGNNNNNNNNCCGAA AAUGCCUC 6008 2248 AGGCAUUUU UCAUAAUA 1853 UAUUAUGA CUGAUGAGGNNNNNNNNCCGAA AAAUGCCU 6009 2249 GGCAUUUUU CAUAAUAG 1854 CUAUUAUG CUGAUGAGGNNNNNNNNCCGAA AAAAUGCC 6010 2250 GCAUUUUUC AUAAUAGA 1855 UCUAUUAU CUGAUGAGGNNNNNNNNCCGAA AAAAAUGC 6011 2253 UUUUUCAUA AUAGAAGG 1856 CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA AUGAAAAA 6012 2256 UUCAUAAUA GAAGGUGC 1857 GCACCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAUGAA 6013 2282 GACGAACUU GGAAAUCA 1858 UGAUUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUCGUC 6014 2289 UUGGAAAUC AUUAUUCU 1859 AGAAUAAU CUGAUGAGGNNNNNNNNCCGAA AUUUCCAA 6015 2292 GAAAUCAUU AUUCUAGU 1860 ACUAGAAU CUGAUGAGGNNNNNNNNCCGAA AUGAUUUC 6016 2293 AAAUCAUUA UUCUAGUA 1861 UACUAGAA CUGAUGAGGNNNNNNNNCCGAA AAUGAUUU 6017 2295 AUCAUUAUU CUAGUAGG 1862 CCUACUAG CUGAUGAGGNNNNNNNNCCGAA AUAAUGAU 6018 2296 UCAUUAUUC UAGUAGGC 1863 GCCUACUA CUGAUGAGGNNNNNNNNCCGAA AAUAAUGA 6019 2298 AUUAUUCUA GUAGGCAC 1864 GUGCCUAC CUGAUGAGGNNNNNNNNCCGAA AGAAUAAU 6020 2301 AUUCUAGUA GGCACGAC 1865 GUCGUGCC CUGAUGAGGNNNNNNNNCCGAA ACUAGAAU 6021 2316 ACGGUGAUU GCCAUGUU 1866 AACAUGGC CUGAUGAGGNNNNNNNNCCGAA AUCACCGU 6022 2324 UGCCAUGUU CUUCUGGC 1867 GCCAGAAG CUGAUGAGGNNNNNNNNCCGAA ACAUGGCA 6023 2325 GCCAUGUUC UUCUGGCU 1868 AGCCAGAA CUGAUGAGGNNNNNNNNCCGAA AACAUGGC 6024 2327 CAUGUUCUU CUGGCUAC 1869 GUAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGAACAUG 6025 2328 AUGUUCUUC UGGCUACU 1870 AGUAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAACAU 6026 2334 UUCUGGCUA CUUCUUGU 1871 ACAAGAAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGAA 6027 2337 UGGCUACUU CUUGUCAU 1872 AUGACAAG CUGAUGAGGNNNNNNNNCCGAA AGUAGCCA 6028 2338 GGCUACUUC UUGUCAUC 1873 GAUGACAA CUGAUGAGGNNNNNNNNCCGAA AAGUAGCC 6029 2340 CUACUUCUU GUCAUCAU 1874 AUGAUGAC CUGAUGAGGNNNNNNNNCCGAA AGAAGUAG 6030 2343 CUUCUUGUC AUCAUCCU 1875 AGGAUGAU CUGAUGAGGNNNNNNNNCCGAA ACAAGAAG 6031 2346 CCUGUCAUC AUCCUAGG 1876 CCUAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGACAAG 6032 2349 GUCAUCAUC CUAGGGAC 1877 GUCCCUAG CUGAUGAGGNNNNNNNNCCGAA AUGAUGAC 6033 2352 AUCAUCCUA GGGACCGU 1878 ACGGUCCC CUGAUGAGGNNNNNNNNCCGAA AGGAUGAU 6034 2361 GGGACCGUU AAGCGGGC 1879 GCCCGCUU CUGAUGAGGNNNNNNNNCCGAA ACGGUCCC 6035 2362 GGACCGUUA AGCGGGCC 1880 GGCCCGCU CUGAUGAGGNNNNNNNNCCGAA AACGGUCC 6036 2396 GACAGGCUA CUUGUCCA 1881 UGGACAAG CUGAUGAGGNNNNNNNNCCGAA AGCCUGUC 6037 2399 AGGCUACUU GUCCAUCG 1882 CGAUGGAC CUGAUGAGGNNNNNNNNCCGAA AGUAGCCU 6038 2402 CUACUUGUC CAUCGUCA 1883 UGACGAUG CUGAUGAGGNNNNNNNNCCGAA ACAAGUAG 6039 2406 UUGUCCAUC GUCAUGGA 1884 UCCAUGAC CUGAUGAGGNNNNNNNNCCGAA AUGGACAA 6040 2409 UCCAUCGUC AUGGAUCC 1885 GGAUCCAU CUGAUGAGGNNNNNNNNCCGAA ACGAUGGA 6041 2416 UCAUGGAUC CAGAUGAA 1886 UUCAUCUG CUGAUGAGGNNNNNNNNCCGAA AUCCAUGA 6042 2427 GAUGAACUC CCAUUGGA 1887 UCCAAUGG CUGAUGAGGNNNNNNNNCCGAA AGUUCAUC 6043 2432 ACUCCCAUU GGAUGAAC 1888 GUUCAUCC CUGAUGAGGNNNNNNNNCCGAA AUGGGAGU 6044 2443 AUGAACAUU GUGAACGA 1889 UCGUUCAC CUGAUGAGGNNNNNNNNCCGAA AUGUUCAU 6045 2458 GACUGCCUU AUGAUGCC 1890 GGCAUCAU CUGAUGAGGNNNNNNNNCCGAA AGGCAGUC 6046 2459 ACUGCCUUA UGAUGCCA 1891 UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AAGGCAGU 6047 2480 AUGGGAAUU CCCCAGAG 1892 CUCUGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAU 6048 2481 UGGGAAUUC CCCAGAGA 1893 UCUCUGGG CUGAUGAGGNNNNNNNNCCGAA AAUUCCCA 6049 2502 CUGAACCUA GGUAAGCC 1894 GGCUUACC CUGAUGAGGNNNNNNNNCCGAA AGGUUCAG 6050 2506 ACCUAGGUA AGCCUCUU 1895 AAGAGGCU CUGAUGAGGNNNNNNNNCCGAA ACCUAGGU 6051 2512 GUAAGCCUC UUGGCCGU 1896 ACGGCCAA CUGAUGAGGNNNNNNNNCCGAA AGGCUUAC 6052 2514 AAGCCUCUU GGCCGUGG 1897 CCACGGCC CUGAUGAGGNNNNNNNNCCGAA AGAGGCUU 6053 2528 UGGUGCCUU UGGCCAAG 1898 CUUGGCCA CUGAUGAGGNNNNNNNNCCGAA AGGCACCA 6054 2529 GGUGCCUUU GGCCAAGA 1899 UCUUGGCC CUGAUGAGGNNNNNNNNCCGAA AAGGCACC 6055 2541 CAAGAGAUU GAAGCAGA 1900 UCUGCUUC CUGAUGAGGNNNNNNNNCCGAA AUCUCUUG 6056 2555 AGAUGCCUU UGGAAUUG 1901 CAAUUCCA CUGAUGAGGNNNNNNNNCCGAA AGGCAUCU 6057 2556 GAUGCCUUU GGAAUUGA 1902 UCAAUUCC CUGAUGAGGNNNNNNNNCCGAA AAGGCAUC 6058 2562 UUUGGAAUU GACAAGAC 1903 GUCUUGUC CUGAUGAGGNNNNNNNNCCGAA AUUCCAAA 6059 2578 CAGCAACUU GCAGGACA 1904 UGUCCUGC CUGAUGAGGNNNNNNNNCCGAA AGUUGCUG 6060 2589 AGGACAGUA GCAGUCAA 1905 UUGACUGC CUGAUGAGGNNNNNNNNCCGAA ACUGUCCU 6061 2595 GUAGCAGUC AAAAUGUU 1906 AACAUUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGUAC 6062 2603 CAAAAUGUU GAAAGAAG 1907 CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUUUUG 6063 2632 GUGAGCAUC GAGCUCUC 1908 GAGAGCUC CUGAUGAGGNNNNNNNNCCGAA AUGCUCAC 6064 2638 AUCGAGCUC UCAUGUCU 1909 AGACAUGA CUGAUGAGGNNNNNNNNCCGAA AGCUCGAU 6065 2640 CGAGCUCUC AUGUCUGA 1910 UCAGACAU CUGAUGAGGNNNNNNNNCCGAA AGAGCUCG 6066 2645 UCUCAUGUC UGAACUCA 1911 UGAGUUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGAGA 6067 2652 UCUGAACUC AAGAUCCU 1912 AGGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCAGA 6068 2658 CUCAAGAUC CUCAUUCA 1913 UGAAUGAG CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG 6069 2661 AAGAUCCUC AUUCAUAU 1914 AUAUGAAU CUGAUGAGGNNNNNNNNCCGAA AGGAUCUU 6070 2664 AUCCUCAUU CAUAUUGG 1915 CCAAUAUG CUGAUGAGGNNNNNNNNCCGAA AUGAGGAU 6071 2665 UCCUCAUUC AUAUUGGU 1916 ACCAAUAU CUGAUGAGGNNNNNNNNCCGAA AAUGAGGA 6072 2668 UCAUUCAUA UUGGUCAC 1917 GUGACCAA CUGAUGAGGNNNNNNNNCCGAA AUGAAUGA 6073 2670 AUUCAUAUU GGUCACCA 1918 UGGUGACC CUGAUGAGGNNNNNNNNCCGAA AUAUGAAU 6074 2674 AUAUUGGUC ACCAUCUC 1919 GAGAUGGU CUGAUGAGGNNNNNNNNCCGAA ACCAAUAU 6075 2680 GUCACCAUC UCAAUGUG 1920 CACAUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGUGAC 6076 2682 CACCAUCUC AAUGUGGU 1921 ACCACAUU CUGAUGAGGNNNNNNNNCCGAA AGAUGGUG 6077 2691 AAUGUGGUC AACCUUCU 1922 AGAAGGUU CUGAUGAGGNNNNNNNNCCGAA ACCACAUU 6078 2697 GUCAACCUU CUAGGUGC 1923 GCACCUAG CUGAUGAGGNNNNNNNNCCGAA AGGUUGAC 6079 2698 UCAACCUUC UAGGUGCC 1924 GGCACCUA CUGAUGAGGNNNNNNNNCCGAA AAGGUUGA 6080 2700 AACCUUCUA GGUGCCUG 1925 CAGGCACC CUGAUGAGGNNNNNNNNCCGAA AGAAGGUU 6081 2710 GUGCCUGUA CCAAGCCA 1926 UGGCUUGG CUGAUGAGGNNNNNNNNCCGAA ACAGGCAC 6082 2730 GGGCCACUC AUGGUGAU 1927 AUCACCAU CUGAUGAGGNNNNNNNNCCGAA AGUGGCCC 6083 2739 AUGGUGAUU GUGGAAUU 1928 AAUUCCAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU 6084 2747 UGUGGAAUU CUGCAAAU 1929 AUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCCACA 6085 2748 GUGGAAUUC UGCAAAUU 1930 AAUUUGCA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAC 6086 2756 CUGCAAAUU UGGAAACC 1931 GGUUUCCA CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG 6087 2757 UGCAAAUUU GGAAACCU 1932 AGGUUUCC CUGAUGAGGNNNNNNNNCCGAA AAUUUGCA 6088 2768 AAACCUGUC CACUUACC 1933 GGUAAGUG CUGAUGAGGNNNNNNNNCCGAA ACAGGUUU 6089 2773 UGUCCACUU ACCUGAGG 1934 CCUCAGGU CUGAUGAGGNNNNNNNNCCGAA AGUGGACA 6090 2774 GUCCACUUA CCUGAGGA 1935 UCCUCAGG CUGAUGAGGNNNNNNNNCCGAA AAGUGGAC 6091 2798 AAAUGAAUU UGUCCCCU 1936 AGGGGACA CUGAUGAGGNNNNNNNNCCGAA AUUCAUUU 6092 2799 AAUGAAUUU GUCCCCUA 1937 UAGGGGAC CUGAUGAGGNNNNNNNNCCGAA AAUUCAUU 6093 2802 GAAUUUGUC CCCUACAA 1938 UUGUAGGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUUC 6094 2807 UGUCCCCUA CAAGACCA 1939 UGGUCUUG CUGAUGAGGNNNNNNNNCCGAA AGGGGACA 6095 2828 GGCACGAUU CCGUCAAG 1940 CUUGACGG CUGAUGAGGNNNNNNNNCCGAA AUCGUGCC 6096 2829 GCACGAUUC CGUCAAGG 1941 CCUUGACG CUGAUGAGGNNNNNNNNCCGAA AAUCGUGC 6097 2833 GAUUCCGUC AAGGGAAA 1942 UUUCCCUU CUGAUGAGGNNNNNNNNCCGAA ACGGAAUC 6098 2846 GAAAGACUA CGUUGGAG 1943 CUCCAACG CUGAUGAGGNNNNNNNNCCGAA AGUCUUUC 6099 2850 GACUACGUU GGAGCAAU 1944 AUUGCUCC CUGAUGAGGNNNNNNNNCCGAA ACGUAGUC 6100 2859 GGAGCAAUC CCUGUGGA 1945 UCCACAGG CUGAUGAGGNNNNNNNNCCGAA AUUGCUCC 6101 2869 CUGUGGAUC UGAAACGG 1946 CCGUUUCA CUGAUGAGGNNNNNNNNCCGAA AUCCACAG 6102 2882 ACGGCGCUU GGACAGCA 1947 UGCUGUCC CUGAUGAGGNNNNNNNNCCGAA AGCGCCGU 6103 2892 GACAGCAUC ACCAGUAG 1948 CUACUGGU CUGAUGAGGNNNNNNNNCCGAA AUGGUGUC 6104 2899 UCACCAGUA GCCAGAGC 1949 GCUCUGGC CUGAUGAGGNNNNNNNNCCGAA ACUGGUGA 6105 2909 CCAGAGCUC AGCCAGCU 1950 AGCUGGCU CUGAUGAGGNNNNNNNNCCGAA AGCUCUGG 6106 2918 AGCCAGCUC UGGAUUUG 1951 CAAAUCCA CUGAUGAGGNNNNNNNNCCGAA AGCUGGCU 6107 2924 CUCUGGAUU UGUGGAGG 1952 CCUCCACA CUGAUGAGGNNNNNNNNCCGAA AUCCAGAG 6108 2925 UCUGGAUUU GUGGAGGA 1953 UCCUCCAC CUGAUGAGGNNNNNNNNCCGAA AAUCCAGA 6109 2939 GGAGAAGUC CCUCAGUG 1954 CACUGAGG CUGAUGAGGNNNNNNNNCCGAA ACUUCUCC 6110 2943 AAGUCCCUC AGUGAUGU 1955 ACAUCACU CUGAUGAGGNNNNNNNNCCGAA AGGGACUU 6111 2952 AGUGAUGUA GAAGAAGA 1956 UCUUCUUC CUGAUGAGGNNNNNNNNCCGAA ACAUCACU 6112 2968 AGGAAGCUC CUGAAGAU 1957 AUCUUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUUCCU 6113 2977 CUGAAGAUC UGUAUAAG 1958 CUUAUACA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAG 6114 2981 AGAUCUGUA UAAGGACU 1959 AGUCCUUA CUGAUGAGGNNNNNNNNCCGAA ACAGAUCU 6115 2983 AUCUGUAUA AGGACUUC 1960 GAAGUCCU CUGAUGAGGNNNNNNNNCCGAA AUACAGAU 6116 2990 UAAGGACUU CCUGACCU 1961 AGGUCAGG CUGAUGAGGNNNNNNNNCCGAA AGUCCUUA 6117 2991 AAGGACUUC CUGACCUU 1962 AAGGUCAG CUGAUGAGGNNNNNNNNCCGAA AAGUCCUU 6118 2999 CCUGACCUU GGAGCAUC 1963 GAUGCUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCAGG 6119 3007 UGGAGCAUC UCAUCUGU 1964 ACAGAUGA CUGAUGAGGNNNNNNNNCCGAA AUGGUCCA 6120 3009 GAGCAUCUC AUCUGUUA 1965 UAACAGAU CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC 6121 3012 CAUCUCAUC UGUUACAG 1966 CUGUAACA CUGAUGAGGNNNNNNNNCCGAA AUGAGAUG 6122 3016 UCAUCUGUU ACAGCUUC 1967 GAAGCUGU CUGAUGAGGNNNNNNNNCCGAA ACAGAUGA 6123 3017 CAUCUGUUA CAGCUUCC 1968 GGAAGCUG CUGAUGAGGNNNNNNNNCCGAA AACAGAUG 6124 3023 UUACAGCUU CCAAGUGG 1969 CCACUUGG CUGAUGAGGNNNNNNNNCCGAA AGCUGUAA 6125 3024 UACAGCUUC CAAGUGGC 1970 GCCACUUG CUGAUGAGGNNNNNNNNCCGAA AAGCUGUA 6126 3034 AAGUGGCUA AGGGCAUG 1971 CAUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGCCACUU 6127 3047 CAUGGAGUU CUUGGCAU 1972 AUGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG 6128 3048 AUGGAGUUC UUGGCAUC 1973 GAUGCCAA CUGAUGAGGNNNNNNNNCCGAA AACUCCAU 6129 3050 GGAGUUCUU GGCAUCGC 1974 GCGAUGCC CUGAUGAGGNNNNNNNNCCGAA AGAACUCC 6130 3056 CUUGGCAUC GCGAAAGU 1975 ACUUUCGC CUGAUGAGGNNNNNNNNCCGAA AUGCCAAG 6131 3067 GAAAGUGUA UCCACAGG 1976 CCUGUGGA CUGAUGAGGNNNNNNNNCCGAA ACACUUUC 6132 3069 AAGUGUAUC CACAGGGA 1977 UCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUACACUU 6133 3094 CACGAAAUA UCCUCUUA 1978 UAAGAGGA CUGAUGAGGNNNNNNNNCCGAA AUUUCGUG 6134 3096 CGAAAUAUC CUCUUAUC 1979 GAUAAGAG CUGAUGAGGNNNNNNNNCCGAA AUAUUUCG 6135 3099 AAUAUCCUC UUAUCGGA 1980 UCCGAUAA CUGAUGAGGNNNNNNNNCCGAA AGGAUAUU 6136 3101 UAUCCUCUU AUCGGAGA 1981 UCUCCGAU CUGAUGAGGNNNNNNNNCCGAA AGAGGAUA 6137 3102 AUCCUCUUA UCGGAGAA 1982 UUCUCCGA CUGAUGAGGNNNNNNNNCCGAA AAGAGGAU 6138 3104 CCUCUUAUC GGAGAAGA 1983 UCUUCUCC CUGAUGAGGNNNNNNNNCCGAA AUAAGAGG 6139 3120 AACGUGGUU AAAAUCUG 1984 CAGAUUUU CUGAUGAGGNNNNNNNNCCGAA ACCACGUU 6140 3121 ACGUGGUUA AAAUCUGU 1985 ACAGAUUU CUGAUGAGGNNNNNNNNCCGAA AACCACGU 6141 3126 GUUAAAAUC UGUGACUU 1986 AAGUCACA CUGAUGAGGNNNNNNNNCCGAA AUUUUAAC 6142 3134 CUGUGACUU UGGCUUGG 1987 CCAAGCCA CUGAUGAGGNNNNNNNNCCGAA AGUCACAG 6143 3135 UGUGACUUU GGCUUGGC 1988 GCCAAGCC CUGAUGAGGNNNNNNNNCCGAA AAGUCACA 6144 3140 CUUUGGCUU GGCCCGGG 1989 CCCGGGCC CUGAUGAGGNNNNNNNNCCGAA AGCCAAAG 6145 3151 CCCGGGAUA UUUAUAAA 1990 UUUAUAAA CUGAUGAGGNNNNNNNNCCGAA AUCCCGGG 6146 3153 CGGGAUAUU UAUAAAGA 1991 UCUUUAUA CUGAUGAGGNNNNNNNNCCGAA AUAUCCCG 6147 3154 GGGAUAUUU AUAAAGAU 1992 AUCUUUAU CUGAUGAGGNNNNNNNNCCGAA AAUAUCCC 6148 3155 GGAUAUUUA UAAAGAUC 1993 GAUCUUUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUCC 6149 3157 AUAUUUAUA AAGAUCCA 1994 UGGAUCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU 6150 3163 AUAAAGAUC CAGAUUAU 1995 AUAAUCUG CUGAUGAGGNNNNNNNNCCGAA AUCUUUAU 6151 3169 AUCCAGAUU AUGUCAGA 1996 UCUGACAU CUGAUGAGGNNNNNNNNCCGAA AUCUGGAU 6152 3170 UCCAGAUUA UGUCAGAA 1997 UUCUGACA CUGAUGAGGNNNNNNNNCCGAA AAUCUGGA 6153 3174 GAUUAUGUC AGAAAAGG 1998 CCUUUUCU CUGAUGAGGNNNNNNNNCCGAA ACAUAAUC 6154 3190 GAGAUGGUC GCCUCCCU 1999 AGGGAGGC CUGAUGAGGNNNNNNNNCCGAA AGCAUCUC 6155 3195 GCUCGCCUC CCUUUGAA 2000 UUCAAAGG CUGAUGAGGNNNNNNNNCCGAA AGGCGAGC 6156 3199 GCCUCCCUU UGAAAUGG 2001 CCAUUUCA CUGAUGAGGNNNNNNNNCCGAA AGGGAGGC 6157 3200 CCUCCCUUU GAAAUGGA 2002 UCCAUUUC CUGAUGAGGNNNNNNNNCCGAA AAGGGAGG 6158 3225 GAAACAAUU UUUGACAG 2003 CUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUUGUUUC 6159 3226 AAACAAUUU UUGACAGA 2004 UCUGUCAA CUGAUGAGGNNNNNNNNCCGAA AAUUGUUU 6160 3227 AACAAUUUU UGACAGAG 2005 CUCUGUCA CUGAUGAGGNNNNNNNNCCGAA AAAUUGUU 6161 3228 ACAAUUUUU GACAGAGU 2006 ACUCUGUC CUGAUGAGGNNNNNNNNCCGAA AAAAUUGU 6162 3239 CAGAGUGUA CACAAUCC 2007 GGAUUGUG CUGAUGAGGNNNNNNNNCCGAA ACACUCUG 6163 3246 UACACAAUC CAGAGUGA 2008 UCACUCUG CUGAUGAGGNNNNNNNNCCGAA AUUGUGUA 6164 3258 AGUGACGUC UGGUCUUU 2009 AAAGACCA CUGAUGAGGNNNNNNNNCCGAA ACGUCACU 6165 3263 CGUCUGGUC UUUUGGUG 2010 CACCAAAA CUGAUGAGGNNNNNNNNCCGAA ACCAGACG 6166 3265 UCUGGUCUU UUGGUGUU 2011 AACACCAA CUGAUGAGGNNNNNNNNCCGAA AGACCAGA 6167 3266 CUGGUCUUU UGGUGUUU 2012 AAACACCA CUGAUGAGGNNNNNNNNCCGAA AAGACCAG 6168 3267 UGGUCUUUU GGUGUUUU 2013 AAAACACC CUGAUGAGGNNNNNNNNCCGAA AAAGACCA 6169 3273 UUUGGUGUU UUGCUGUG 2014 CACAGCAA CUGAUGAGGNNNNNNNNCCGAA ACACCAAA 6170 3274 UUGGUGUUU UGCUGUGG 2015 CCACAGCA CUGAUGAGGNNNNNNNNCCGAA AACACCAA 6171 3275 UGGUGUUUU GCUGUGGG 2016 CCCACAGC CUGAUGAGGNNNNNNNNCCGAA AAACACCA 6172 3288 UGGGAAAUA UUUUCCUU 2017 AAGGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA 6173 3290 GGAAAUAUU UUCCUUAG 2018 CUAAGGAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUCC 6174 3291 GAAAUAUUU UCCUUAGG 2019 CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAUAUUUC 6175 3292 AAAUAUUUU CCUUAGGU 2020 ACCUAAGG CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU 6176 3293 AAUAUUUUC CUUAGGUG 2021 CACCUAAG CUGAUGAGGNNNNNNNNCCGAA AAAAUAUU 6177 3296 AUUUUCCUU AGGUGCUU 2022 AAGCACCU CUGAUGAGGNNNNNNNNCCGAA AGGAAAAU 6178 3297 UUUUCCUUA GGUGCUUC 2023 GAAGCACC CUGAUGAGGNNNNNNNNCCGAA AAGGAAAA 6179 3304 UAGGUGCUU CUCCAUAU 2024 AUAUGGAG CUGAUGAGGNNNNNNNNCCGAA AGCACCUA 6180 3305 AGGUGCUUC UCCAUAUC 2025 GAUAUGGA CUGAUGAGGNNNNNNNNCCGAA AAGCACCU 6181 3307 GUGCUUCUC CAUAUCCU 2026 AGGAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAAGCAC 6182 3311 UUCUCCAUA UCCUGGGG 2027 CCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA 6183 3313 CUCCAUAUC CUGGGGUA 2028 UACCCCAG CUGAUGAGGNNNNNNNNCCGAA AUAUGGAG 6184 3321 CCUGGGGUA AAGAUUGA 2029 UCAAUCUU CUGAUGAGGNNNNNNNNCCGAA ACCCCAGG 6185 3327 GUAAAGAUU GAUGAAGA 2030 UCUUCAUC CUGAUGAGGNNNNNNNNCCGAA AUCUUUAC 6186 3338 UGAAGAAUU UUGUAGGC 2031 GCCUACAA CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA 6187 3339 GAAGAAUUU UGUAGGCG 2032 CGCCUACA CUGAUGAGGNNNNNNNNCCGAA AAUUCUUC 6188 3340 AAGAAUUUU GUAGGCGA 2033 UCGCCUAC CUGAUGAGGNNNNNNNNCCGAA AAAUUCUU 6189 3343 AAUUUUGUA GGCGAUUG 2034 CAAUCGCC CUGAUGAGGNNNNNNNNCCGAA ACAAAAUU 6190 3350 UAGGCGAUU GAAAGAAG 2035 CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUCGCCUA 6191 3364 AAGGAACUA GAAUGAGG 2036 CCUCAUUC CUGAUGAGGNNNNNNNNCCGAA AGUUCCUU 6192 3382 CCCCUGAUU AUACUACA 2037 UGUAGUAU CUGAUGAGGNNNNNNNNCCGAA AUCAGGGG 6193 3383 CCCUGAUUA UACUACAC 2038 GUGUAGUA CUGAUGAGGNNNNNNNNCCGAA AAUCAGGG 6194 3385 CUGAUUAUA CUACACCA 2039 UGGUGUAG CUGAUGAGGNNNNNNNNCCGAA AUAAUCAG 6195 3388 AUUAUACUA CACCAGAA 2040 UUCUGGUG CUGAUGAGGNNNNNNNNCCGAA AGUAUAAU 6196 3401 AGAAAUGUA CCAGACCA 2041 UGGUCUGG CUGAUGAGGNNNNNNNNCCGAA ACAUUUCU 6197 3439 AGCCCAGUC AGAGACCC 2042 GGGUCUCU CUGAUGAGGNNNNNNNNCCGAA ACUGGGCU 6198 3452 ACCCACGUU UUCAGAGU 2043 ACUCUGAA CUGAUGAGGNNNNNNNNCCGAA ACGUGGGU 6199 3453 CCCACGUUU UCAGAGUU 2044 AACUCUGA CUGAUGAGGNNNNNNNNCCGAA AACGUGGG 6200 3454 CCACGUUUU CAGAGUUG 2045 CAACUCUG CUGAUGAGGNNNNNNNNCCGAA AAACGUGG 6201 3455 CACGUUUUC AGAGUUGG 2046 CCAACUCU CUGAUGAGGNNNNNNNNCCGAA AAAACGUG 6202 3461 UUCAGAGUU GGUGGAAC 2047 GUUCCACC CUGAUGAGGNNNNNNNNCCGAA ACUCUGAA 6203 3472 UGGAACAUU UGGGAAAU 2048 AUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AUGUUCCA 6204 3473 GGAAGAUUU GGGAAAUC 2049 GAUUUCCC CUGAUGAGGNNNNNNNNCCGAA AAUGUUCC 6205 3481 UGGGAAAUC UCUUGCAA 2050 UUGCAAGA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA 6206 3483 GGAAAUCUC UUGCAAGC 2051 GCUUGCAA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCC 6207 3485 AAAUCUCUU GCAAGCUA 2052 UAGCUUGC CUGAUGAGGNNNNNNNNCCGAA AGAGAUUU 6208 3493 UGCAAGCUA AUGCUCAG 2053 CUGAGCAU CUGAUGAGGNNNNNNNNCCGAA AGCUUGCA 6209 3499 CUAAUGCUC AGCAGGAU 2054 AUCCUGCU CUGAUGAGGNNNNNNNNCCGAA AGCAUUAG 6210 3518 CAAAGACUA CAUUGUUC 2055 GAACAAUG CUGAUGAGGNNNNNNNNCCGAA AGUCUUUG 6211 3522 GACUACAUU GUUCUUCC 2056 GGAAGAAC CUGAUGAGGNNNNNNNNCCGAA AUGUAGUC 6212 3525 UACAUUGUU CUUCCGAU 2057 AUCGGAAG CUGAUGAGGNNNNNNNNCCGAA ACAAUGUA 6213 3526 ACAUUGUUC UUCCGAUA 2058 UAUCGGAA CUGAUGAGGNNNNNNNNCCGAA AACAAUGU 6214 3528 AUUGUUCUU CCGAUAUC 2059 GAUAUCGG CUGAUGAGGNNNNNNNNCCGAA AGAACAAU 6215 3529 UUGUUCUUC CGAUAUCA 2060 UGAUAUCG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA 6216 3534 CUUCCGAUA UCAGAGAC 2061 GUCUCUGA CUGAUGAGGNNNNNNNNCCGAA AUCGGAAG 6217 3536 UCCGAUAUC AGAGACUU 2062 AAGUCUCU CUGAUGAGGNNNNNNNNCCGAA AUAUCGGA 6218 3544 CAGAGACUU UGAGCAUG 2063 CAUGCUCA CUGAUGAGGNNNNNNNNCCGAA AGUCUCUG 6219 3545 AGAGACUUU GAGCAUGG 2064 CCAUGCUC CUGAUGAGGNNNNNNNNCCGAA AAGUCUCU 6220 3562 AAGAGGAUU CUGGACUC 2065 GAGUCCAG CUGAUGAGGNNNNNNNNCCGAA AUCCUCUU 6221 3563 AGAGGAUUC UGGACUCU 2066 AGAGUCCA CUGAUGAGGNNNNNNNNCCGAA AAUCCUCU 6222 3570 UCUGGACUC UCUCUGCC 2067 GGCAGAGA CUGAUGAGGNNNNNNNNCCGAA AGUCCAGA 6223 3572 UGGACUCUC UCUGCCUA 2068 UAGGCAGA CUGAUGAGGNNNNNNNNCCGAA AGAGUCCA 6224 3574 GACUCUCUC UGCCUACC 2069 GGUAGGCA CUGAUGAGGNNNNNNNNCCGAA AGAGAGUC 6225 3580 CUCUGCCUA CCUCACCU 2070 AGGUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGCAGAG 6226 3584 GCCUACCUC ACCUGUUU 2071 AAACAGGU CUGAUGAGGNNNNNNNNCCGAA AGGUAGGC 6227 3591 UCACCUGUU UCCUGUAU 2072 AUACAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGGUGA 6228 3592 CACCUGUUU CCUGUAUG 2073 CAUACAGG CUGAUGAGGNNNNNNNNCCGAA AACAGGUG 6229 3593 ACCUGUUUC CUGUAUGG 2074 CCAUACAG CUGAUGAGGNNNNNNNNCCGAA AAACAGGU 6230 3598 UUUCCUGUA UGGAGGAG 2075 CUCCUCCA CUGAUGAGGNNNNNNNNCCGAA ACAGGAAA 6231 3615 GAGGAAGUA UGUGACCC 2076 GGGUCACA CUGAUGAGGNNNNNNNNCCGAA ACUUCCUC 6232 3629 CCCCAAAUU CCAUUAUG 2077 CAUAAUGG CUGAUGAGGNNNNNNNNCCGAA AUUUGGGG 6233 3630 CCCAAAUUC CAUUAUGA 2078 UCAUAAUG CUGAUGAGGNNNNNNNNCCGAA AAUUUGGG 6234 3634 AAUUCCAUU AUGACAAC 2079 GUUGUCAU CUGAUGAGGNNNNNNNNCCGAA AUGGAAUU 6235 3635 AUUCCAUUA UGACAACA 2080 UGUUGUCA CUGAUGAGGNNNNNNNNCCGAA AAUGGAAU 6236 3654 GCAGGAAUC AGUCAGUA 2081 UACUGACU CUGAUGAGGNNNNNNNNCCGAA AUUCCUGC 6237 3658 GAAUCAGUC AGUAUCUG 2082 CAGAUACU CUGAUGAGGNNNNNNNNCCGAA ACUGAUUC 6238 3662 CAGUCAGUA UCUGCAGA 2083 UCUGCAGA CUGAUGAGGNNNNNNNNCCGAA ACUGACUG 6239 3664 GUCAGUAUC UGCAGAAC 2084 GUUCUGCA CUGAUGAGGNNNNNNNNCCGAA AUACUGAC 6240 3676 AGAACAGUA AGCGAAAG 2085 CUUUCGCU CUGAUGAGGNNNNNNNNCCGAA ACUGUUCU 6241 3702 GUGAGUGUA AAAACAUU 2086 AAUGUUUU CUGAUGAGGNNNNNNNNCCGAA ACACUCAC 6242 3710 AAAAACAUU UGAAGAUA 2087 UAUCUUCA CUGAUGAGGNNNNNNNNCCGAA AUGUUUUU 6243 3711 AAAACAUUU GAAGAUAU 2088 AUAUCUUC CUGAUGAGGNNNNNNNNCCGAA AAUGUUUU 6244 3718 UUGAAGAUA UCCCGUUA 2089 UAACGGGA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAA 6245 3720 GAAGAUAUC CCGUUAGA 2090 UCUAACGG CUGAUGAGGNNNNNNNNCCGAA AUAUCUUC 6246 3725 UAUCCCGUU AGAAGAAC 2091 GUUCUUCU CUGAUGAGGNNNNNNNNCCGAA ACGGGAUA 6247 3726 AUCCCGUUA GAAGAACC 2092 GGUUCUUC CUGAUGAGGNNNNNNNNCCGAA AACGGGAU 6248 3741 CCAGAAGUA AAAGUAAU 2093 AUUACUUU CUGAUGAGGNNNNNNNNCCGAA ACUUCUGG 6249 3747 GUAAAAGUA AUCCCAGA 2094 UCUGGGAU CUGAUGAGGNNNNNNNNCCGAA ACUUUUAC 6250 3750 AAAGUAAUC CCAGAUGA 2095 UCAUCUGG CUGAUGAGGNNNNNNNNCCGAA AUUACUUU 6251 3778 ACAGUGGUA UGGUUCUU 2096 AAGAACCA CUGAUGAGGNNNNNNNNCCGAA ACCACUGU 6252 3783 GGUAUGGUU CUUGCCUC 2097 GAGGCAAG CUGAUGAGGNNNNNNNNCCGAA ACCAUACC 6253 3784 GUAUGGUUC UUGCCUCA 2098 UGAGGCAA CUGAUGAGGNNNNNNNNCCGAA AACCAUAC 6254 3786 AUGGUUCUU GCCUCAGA 2099 UCUGAGGC CUGAUGAGGNNNNNNNNCCGAA AGAACCAU 6255 3791 UCUUGCCUC AGAAGAGC 2100 GCUCUUCU CUGAUGAGGNNNNNNNNCCGAA AGGCAAGA 6256 3808 UGAAAACUU UGGAAGAC 2101 GUCUUCCA CUGAUGAGGNNNNNNNNCCGAA AGUUUUCA 6257 3809 GAAAACUUU GGAAGACA 2102 UGUCUUCC CUGAUGAGGNNNNNNNNCCGAA AAGUUUUC 6258 3827 AACCAAAUU AUCUCCAU 2103 AUGGAGAU CUGAUGAGGNNNNNNNNCCGAA AUUUGGUU 6259 3828 ACCAAAUUA UCUCCAUC 2104 GAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUUUGGU 6260 3830 CAAAUUAUC UCCAUCUU 2105 AAGAUGGA CUGAUGAGGNNNNNNNNCCGAA AUAAUUUG 6261 3832 AAUUAUCUC CAUCUUUU 2106 AAAAGAUG CUGAUGAGGNNNNNNNNCCGAA AGAUAAUU 6262 3836 AUCUCCAUC UUUUGGUG 2107 CACCAAAA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAU 6263 3838 CUCCAUCUU UUGGUGGA 2108 UCCACCAA CUGAUGAGGNNNNNNNNCCGAA AGAUGGAG 6264 3839 UCCAUCUUU UGGUGGAA 2109 UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AAGAUGGA 6265 3840 CCAUCUUUU GGUGGAAU 2110 AUUCCACC CUGAUGAGGNNNNNNNNCCGAA AAAGAUGG 6266 3872 CAGGGAGUC UGUGGCAU 2111 AUGCCACA CUGAUGAGGNNNNNNNNCCGAA ACUCCCUG 6267 3881 UGUGGCAUC UGAAGGCU 2112 AGCCUUCA CUGAUGAGGNNNNNNNNCCGAA AUGCCACA 6268 3890 UGAAGGCUC AAACCAGA 2113 UCUGGUUU CUGAUGAGGNNNNNNNNCCGAA AGCCUUCA 6269 3908 AAGCGGCUA CCAGUCCG 2114 CGGACUGG CUGAUGAGGNNNNNNNNCCGAA AGCCGCUU 6270 3914 CUACCAGUC CGGAUAUC 2115 GAUAUCCG CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG 6271 3920 GUCCGGAUA UCACUCCG 2116 CGGAGUGA CUGAUGAGGNNNNNNNNCCGAA AUCCGGAC 6272 3922 CCGGAUAUC ACUCCGAU 2117 AUCGGAGU CUGAUGAGGNNNNNNNNCCGAA AUAUCCGG 6273 3926 AUAUCACUC CGAUGACA 2118 UGUCAUCG CUGAUGAGGNNNNNNNNCCGAA AGUGAUAU 6274 3950 CACCGUGUA CUCCAGUG 2119 CACUGGAG CUGAUGAGGNNNNNNNNCCGAA ACACGGUG 6275 3953 CGUGUACUC CAGUGAGG 2120 CCUCACUG CUGAUGAGGNNNNNNNNCCGAA AGUACACG 6276 3972 GCAGAACUU UUAAAGCU 2121 AGCUUUAA CUGAUGAGGNNNNNNNNCCGAA AGUUCUGC 6277 3973 CAGAACUUU UAAAGCUG 2122 CAGCUUUA CUGAUGAGGNNNNNNNNCCGAA AAGUUCUG 6278 3974 AGAACUUUU AAAGCUGA 2123 UCAGCUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUUCU 6279 3975 GAACUUUUA AAGCUGAU 2124 AUCAGCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGUUC 6280 3984 AAGCUGAUA GAGAUUGG 2125 CCAAUCUC CUGAUGAGGNNNNNNNNCCGAA AUCAGCUU 6281 3990 AUAGAGAUU GGAGUGCA 2126 UGCACUCC CUGAUGAGGNNNNNNNNCCGAA AUCUCUAU 6282 4006 AAACCGGUA GCACAGCC 2127 GGCUGUGC CUGAUGAGGNNNNNNNNCCGAA ACCGGUUU 6283 4020 GCCCAGAUU CUCCAGCC 2128 GGCUGGAG CUGAUGAGGNNNNNNNNCCGAA AUCUGGGC 6284 4021 CCCAGAUUC UCCAGCCU 2129 AGGCUGGA CUGAUGAGGNNNNNNNNCCGAA AAUCUGGG 6285 4023 CAGAUUCUC CAGCCUGA 2130 UCAGGCUG CUGAUGAGGNNNNNNNNCCGAA AGAAUCUG 6286 4052 ACUGAGCUC UCCUCCUG 2131 CAGGAGGA CUGAUGAGGNNNNNNNNCCGAA AGCUCAGU 6287 4054 UGAGCUCUC CUCCUGUU 2132 AACAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAGCUCA 6288 4057 GCUCUCCUC CUGUUUAA 2133 UUAAACAG CUGAUGAGGNNNNNNNNCCGAA AGGAGAGC 6289 4062 CCUCCUGUU UAAAAGGA 2134 UCCUUUUA CUGAUGAGGNNNNNNNNCCGAA ACAGGAGG 6290 4063 CUCCUGUUU AAAAGGAA 2135 UUCCUUUU CUGAUGAGGNNNNNNNNCCGAA AACAGGAG 6291 4064 UCCUGUUUA AAAGGAAG 2136 CUUCCUUU CUGAUGAGGNNNNNNNNCCGAA AAACAGGA 6292 4076 GGAAGCAUC CACACCCC 2137 GGGGUGUG CUGAUGAGGNNNNNNNNCCGAA AUGCUUCC 6293 4089 CCCCAACUC CCGGACAU 2138 AUGUCCGG CUGAUGAGGNNNNNNNNCCGAA AGUUGGGG 6294 4098 CCGGACAUC ACAUGAGA 2139 UCUCAUGU CUGAUGAGGNNNNNNNNCCGAA AUGUCCGG 6295 4110 UGAGAGGUC UGCUCAGA 2140 UCUGAGCA CUGAUGAGGNNNNNNNNCCGAA ACCUCUCA 6296 4115 GGUCUGCUC AGAUUUUG 2141 CAAAAUCU CUGAUGAGGNNNNNNNNCCGAA AGCAGACC 6297 4120 GCUCAGAUU UUGAAGUG 2142 CACUUCAA CUGAUGAGGNNNNNNNNCCGAA AUCUGAGC 6298 4121 CUCAGAUUU UGAAGUGU 2143 ACACUUCA CUGAUGAGGNNNNNNNNCCGAA AAUCUGAG 6299 4122 UCAGAUUUU GAAGUGUU 2144 AACACUUC CUGAUGAGGNNNNNNNNCCGAA AAAUCUGA 6300 4130 UGAAGUGUU GUUCUUUC 2145 GAAAGAAC CUGAUGAGGNNNNNNNNCCGAA ACACUUCA 6301 4133 AGUGUUGUU CUUUCCAC 2146 GUGGAAAG CUGAUGAGGNNNNNNNNCCGAA ACAACACU 6302 4134 GUGUUGUUC UUUCCACC 2147 GGUGGAAA CUGAUGAGGNNNNNNNNCCGAA AACAACAC 6303 4136 GUUGUUCUU UCCACCAG 2148 CUGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGAACAAC 6304 4137 UUGUUCUUU CCACCAGC 2149 GCUGGUGG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA 6305 4138 UGUUCUUUC CACCAGCA 2150 UGCUGGUG CUGAUGAGGNNNNNNNNCCGAA AAAGAACA 6306 4153 CAGGAAGUA GCCGCAUU 2151 AAUGCGGC CUGAUGAGGNNNNNNNNCCGAA ACUUCCUG 6307 4161 AGCCGCAUU UGAUUUUC 2152 GAAAAUCA CUGAUGAGGNNNNNNNNCCGAA AUGCGGCU 6308 4162 GCCGCAUUU GAUUUUCA 2153 UGAAAAUC CUGAUGAGGNNNNNNNNCCGAA AAUGCGGC 6309 4166 CAUUUGAUU UUCAUUUC 2154 GAAAUGAA CUGAUGAGGNNNNNNNNCCGAA AUCAAAUG 6310 4167 AUUUGAUUU UCAUUUCG 2155 CGAAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUCAAAU 6311 4168 UUUGAUUUU CAUUUCGA 2156 UCGAAAUG CUGAUGAGGNNNNNNNNCCGAA AAAUCAAA 6312 4169 UUGAUUUUC AUUUCGAC 2157 GUCGAAAU CUGAUGAGGNNNNNNNNCCGAA AAAAUCAA 6313 4172 AUUUUCAUU UCGACAAC 2158 GUUGUCGA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU 6314 4173 UUUUCAUUU CGACAACA 2159 UGUUGUCG CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA 6315 4174 UUUCAUUUC GACAACAG 2160 CUGUUGUC CUGAUGAGGNNNNNNNNCCGAA AAAUGAAA 6316 4194 AAGGACCUC GGACUGCA 2161 UGCAGUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCCUU 6317 4214 AGCCAGCUC UUCUAGGC 2162 GCCUAGAA CUGAUGAGGNNNNNNNNCCGAA AGCUGGCU 6318 4216 CCAGCUCUU CUAGGCUU 2163 AAGCCUAG CUGAUGAGGNNNNNNNNCCGAA AGAGCUGG 6319 4217 CAGCUCUUC UAGGCUUG 2164 CAAGCCUA CUGAUGAGGNNNNNNNNCCGAA AAGAGCUG 6320 4219 GCUCUUCUA GGCUUGUG 2165 CACAAGCC CUGAUGAGGNNNNNNNNCCGAA AGAAGAGC 6321 Where “N” represents stem II region of a HH ribosyme (Hertel et al., 1992 Nucleic Acids Res. 20 3253). The length of the stem II may be ≧2 base-pairs. Underlined region can be any N sequence or linker, as described herein.

TABLE V Human KDR VEGF Receptor-Hairpin Ribozyme and Substrate Sequences Pos Substrate Seq ID No Hairpin Ribozyme Sequence Seq ID No 11 AGGUGCU GCU GGCCGUCG 2166 CGACGGCC AGAA GCACCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6322 18 GCUGGCC GUC GCCCUGUG 2167 CACAGGGC AGAA GCCAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6323 51 CCGGGCC GCC UCUGUGGG 2168 CCCACAGA AGAA GCCCGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6324 86 UUGAUCU GCC CAGGCUCA 2169 UGAGCCUG AGAA GAUCAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6325 318 GGAAACU GAC UUGGCCUC 2170 GAGGCCAA AGAA GUUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6326 358 GAUUACA GAU CUCCAUUU 2171 AAAUGGAG AGAA GUAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6327 510 UGUUCCU GAU GGUAACAG 2172 CUGUUACC AGAA GGAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6328 623 GUUACCA GUC UAUUAUGU 2173 ACAUAAUA AGAA GGUAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6329 683 UGAGUCC GUC UCAUGGAA 2174 UUCCAUGA AGAA GACUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6330 705 ACUAUCU GUU GGAGAAAA 2175 UUUUCUCC AGAA GAUAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6331 833 AAACCCA GUC UGGGAGUG 2176 CACUCCCA AGAA GGGUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6332 932 GUGGGCU GAU GACCAAGA 2177 UCUUGGUC AGAA GCCCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6333 1142 AUGUACU GAC GAUUAUGG 2178 CCAUAAUC AGAA GUACAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6334 1259 CACCCCA GAU UGGUGAGA 2179 UCUCACCA AGAA GGGGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6335 1332 AUGUACG GUC UAUGCCAU 2180 AUGGCAUA AGAA GUACAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6336 1376 AUUGGCA GUU GGAGGAAG 2181 CUUCCUCC AGAA GCCAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6337 1413 CCAAGCU GUC UCAGUGAC 2182 GUCACUGA AGAA GCUUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6338 1569 UGUGUCA GCU UUGUACAA 2183 UUGUACAA AGAA GACACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6339 1673 ACAUGCA GCC CACUGAGC 2184 GCUCAGUG AGAA GCAUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6340 1717 GCAGACA GAU CUACGUUU 2185 AAACGUAG AGAA GUCUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6341 1760 GCCCACA GCC UCUGCCAA 2186 UUGGCAGA AGAA GUGGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6342 1797 CACACCU GUU UGCAAGAA 2187 UUCUUGCA AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6343 1918 UAUGUCU GCC UUGCUCAA 2188 UUGAGCAA AGAA GACAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6344 1967 UCAGGCA GCU CACAGUCC 2189 GGACUGUG AGAA GCCUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6345 1974 GCUCACA GUC CUAGAGCG 2190 CGCUCUAG AGAA GUGAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6346 2021 AGAAUCA GAC GACAAGUA 2191 UACUUGUC AGAA GAUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6347 2084 CUCCACA GAU CAUGUGGU 2192 ACCACAUG AGAA GUGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6348 2418 GGAUCCA GAU GAACUCCC 2193 GGGAGUUC AGAA GGAUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6349 2453 AACGACU GCC UUAUGAUG 2194 CAUCAUAA AGAA GUCGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6350 2492 GAGACCG GCU GAACCUAG 2195 CUAGGUUC AGAA GGUCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6351 2547 UGAAGCA GAU GCCUUUGG 2196 CCAAAGGC AGAA GCUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6352 2765 GAAACCU GUC CACUUACC 2197 GGUAAGUG AGAA GGUUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6353 2914 UCAGCCA GCU CUGGAUUU 2198 AAAUCCAG AGAA GGCUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6354 2993 ACUUCCU GAC CUUGGAGC 2199 GCUCCAAG AGAA GGAAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6355 3019 UGUUACA GCU UCCAAGUG 2200 CACUUGGA AGAA GUAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6356 3165 AGAUCCA GAU UAUGUCAG 2201 CUGACAUA AGAA GGAUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6357 3378 GGCCCCU GAU UAUACUAC 2202 GUAGUAUA AGAA GGGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6358 3404 UGUACCA GAC CAUGCUGG 2203 CCAGCAUG AGAA GGUACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6359 3418 CUGGACU GCU GGCACGGG 2204 CCCGUGCC AGAA GUCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6360 3575 UCUCUCU GCC UACCUCAC 2205 GUGAGGUA AGAA GAGAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6361 3588 CUCACCU GUU UCCUGUAU 2206 AUACAGGA AGAA GGUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6362 3689 AGAGCCG GCC UGUGAGUG 2207 CACUCACA AGAA GGCUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6363 3753 AAUCCCA GAU GACAACCA 2208 UGGUUGUC AGAA GGGAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6364 3764 ACAACCA GAC GGACAGUG 2209 CACUGUCC AGAA GGUUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6365 3911 GCUACCA GUC CGGAUAUC 2210 GAUAUCCG AGAA GGUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6366 3927 UCACUCC GAU GACACAGA 2211 UCUGUGUC AGAA GAGUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6367 4011 UAGCACA GCC CAGAUUCU 2212 AGAAUCUG AGAA GUGCUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6368 4016 CAGCCCA GAU UCUCCAGC 2213 GCUGGAGA AGAA GGGCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6369 4025 UUCUCCA GCC UGACACGG 2214 CCGUGUCA AGAA GGAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6370 4059 UCCUCCU GUU UAAAAGGA 2215 UCCUUUUA AGAA GGAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6371 4111 GAGGUCU GCU CAGAUUUU 2216 AAAAUCUG AGAA GACCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6372 4116 CUGCUCA GAU UUUGAAGU 2217 ACUUCAAA AGAA GAGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6373 4195 GACCUCG GAC UGCAGGGA 2218 UCCCUGCA AGAA GAGGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6374 4210 GGAGCCA GCU CUUCUAGG 2219 CCUAGAAG AGAA GGCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6375

TABLE VI Mouse flk-1 VEGF Receptor-Hammerhead Ribozyme and Substrate Sequence Seq Seq ID ID Pos Substrate No HH Ribozyme Sequence No 13 GGGCGAAUU GGGUACGG 2220 CCGUACCC CUGAUGAGGNNNNNNNNCCGAA AUUCGCCC 6376 18 AAUUGGGUA CGGGACCC 2221 GGGUCCCG CUGAUGAGGNNNNNNNNCCGAA ACCCAAUU 6377 31 ACCCCCCUC GAGGUCGA 2222 UGGACCUC CUGAUGAGGNNNNNNNNCCGAA AGGGGGGU 6378 37 CUCGAGGUC GACGGUAU 2223 AUACCGUC CUGAUGAGGNNNNNNNNCCGAA ACCUCGAG 6379 44 UCGACGGUA UCGAUAAG 2224 CUUAUCGA CUGAUGAGGNNNNNNNNCCGAA ACCGUCGA 6380 46 GACGGUAUC GAUAAGCU 2225 AGCUUAUC CUGAUGAGGNNNNNNNNCCGAA AUACCGUC 6381 50 GUAUCGAUA AGCUUGAU 2226 AUCAAGCU CUGAUGAGGNNNNNNNNCCGAA AUCGAUAC 6382 55 GAUAAGCUU GAUAUCGA 2227 UCGAUAUC CUGAUGAGGNNNNNNNNCCGAA AGCUUAUC 6383 59 AGCUUGAUA UCGAAUUC 2228 GAAUUCGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGCU 6384 61 CUUGAUAUC GAAUUCGG 2229 CCGAAUUC CUGAUGAGGNNNNNNNNCCGAA AUAUCAAG 6385 66 UAUCGAAUU CGGGCCCA 2230 UGGGCCCG CUGAUGAGGNNNNNNNNCCGAA AUUCGAUA 6386 67 AUCGAAUUC GGGCCCAG 2231 CUGGGCCC CUGAUGAGGNNNNNNNNCCGAA AAUUCGAU 6387 83 GACUGUGUC CCGCAGCC 2232 GGCUGCGG CUGAUGAGGNNNNNNNNCCGAA ACACAGUC 6388 97 GCCGGGAUA ACCUGGCU 2233 AGCCAGGU CUGAUGAGGNNNNNNNNCCGAA AUCCCGGC 6389 114 GACCCGAUU CCGCGGAC 2234 GUCCGCGG CUGAUGAGGNNNNNNNNCCGAA AUCGGGUC 6390 115 ACCCGAUUC CGCGGACA 2235 UGUCCGCG CUGAUGAGGNNNNNNNNCCGAA AAUCGGGU 6391 169 CCCGCGCUC UCCCCGGU 2236 ACCGGGGA CUGAUGAGGNNNNNNNNCCGAA AGCGCGGG 6392 171 CGCGCUCUC CCCGGUCU 2237 AGACCGGG CUGAUGAGGNNNNNNNNCCGAA AGAGCGCG 6393 178 UCCCCGGUC UUGCGCUG 2238 CAGCGCAA CUGAUGAGGNNNNNNNNCCGAA ACCGGGGA 6394 180 CCCGGUCUU GCGCUGCG 2239 CGCAGCGC CUGAUGAGGNNNNNNNNCCGAA AGACCGGG 6395 197 GGGGCCAUA CCGCCUCU 2240 AGAGGCGG CUGAUGAGGNNNNNNNNCCGAA AUGGCCCC 6396 204 UACCGCCUC UGUGACUU 2241 AAGUCACA CUGAUGAGGNNNNNNNNCCGAA AGGCGGUA 6397 212 CUGUGACUU CUUUGCGG 2242 CCGCAAAG CUGAUGAGGNNNNNNNNCCGAA AGUCACAG 6398 213 UGUGACUUC UUUGCGGG 2243 CCCGCAAA CUGAUGAGGNNNNNNNNCCGAA AAGUCACA 6399 215 UGACUUCUU UGCGGGCC 2244 GGCCCGCA CUGAUGAGGNNNNNNNNCCGAA AGAAGUCA 6400 216 GACUUCUUU GCGGGCCA 2245 UGGCCCGC CUGAUGAGGNNNNNNNNCCGAA AAGAAGUC 6401 241 GAAGGAGUC UGUGCCUG 2246 CAGGCACA CUGAUGAGGNNNNNNNNCCGAA ACUCCUUC 6402 262 ACUGGGCUC UGUGCCCA 2247 UGGGCACA CUGAUGAGGNNNNNNNNCCGAA AGCCCAGU 6403 306 GCGCUGCUA GCUGUCGC 2248 GCGACAGC CUGAUGAGGNNNNNNNNCCGAA AGCAGCGC 6404 312 CUAGCUGUC GCUCUGUG 2249 CACAGAGC CUGAUGAGGNNNNNNNNCCGAA ACAGCUAG 6405 316 CUGUCGCUC UGUGGUUC 2250 GAACCACA CUGAUGAGGNNNNNNNNCCGAA AGCGACAG 6406 323 UCUGUGGUU CUGCGUGG 2251 CCACGCAG CUGAUGAGGNNNNNNNNCCGAA ACCACAGA 6407 324 CUGUGGUUC UGCGUGGA 2252 UCCACGCA CUGAUGAGGNNNNNNNNCCGAA AACCACAG 6408 347 AGCCGCCUC UGUGGGUU 2253 AACCCACA CUGAUGAGGNNNNNNNNCCGAA AGGCGGCU 6409 355 CUGUGGGUU UGACUGGC 2254 GCCAGUCA CUGAUGAGGNNNNNNNNCCGAA ACCCACAG 6410 356 UGUGGGUUU GACUGGCG 2255 CGCCAGUC CUGAUGAGGNNNNNNNNCCGAA AACCCACA 6411 367 CUGGCGAUU UUCUCCAU 2256 AUGGAGAA CUGAUGAGGNNNNNNNNCCGAA AUCGCCAG 6412 368 UGGCGAUUU UCUCCAUC 2257 GAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUCGCCA 6413 369 GGCGAUUUU CUCCAUCC 2258 GGAUGGAG CUGAUGAGGNNNNNNNNCCGAA AAAUCGCC 6414 370 GCGAUUUUC UCCAUCCC 2259 GGGAUGGA CUGAUGAGGNNNNNNNNCCGAA AAAAUCGC 6415 372 GAUUUUCUC CAUCCCCC 2260 GGGGGAUG CUGAUGAGGNNNNNNNNCCGAA AGAAAAUC 6416 376 UUCUCCAUC CCCCCAAG 2261 CUUGGGGG CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA 6417 387 CCCAAGCUC AGGACACA 2262 UGUGUGCU CUGAUGAGGNNNNNNNNCCGAA AGCUUGGG 6418 405 AAAGACAUA CUGACAAU 2263 AUUGUCAG CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU 6419 414 CUGACAAUU UUGGCAAA 2264 UUUGCCAA CUGAUGAGGNNNNNNNNCCGAA AUUGUCAG 6420 415 UGACAAUUU UGGCAAAU 2265 AUUUGCCA CUGAUGAGGNNNNNNNNCCGAA AAUUGUCA 6421 416 GACAAUUUU GGCAAAUA 2266 UAUUUGCC CUGAUGAGGNNNNNNNNCCGAA AAAUUGUC 6422 424 UGGCAAAUA CAACCCUU 2267 AAGGGUUG CUGAUGAGGNNNNNNNNCCGAA AUUUGCCA 6423 432 ACAACCCUU CAGAUUAC 2268 GUAAUCUG CUGAUGAGGNNNNNNNNCCGAA AGGGUUGU 6424 433 CAACCCUUC AGAUUACU 2269 AGUAAUCU CUGAUGAGGNNNNNNNNCCGAA AAGGGUUG 6425 438 CUUCAGAUU ACUUGCAG 2270 CUGCAAGU CUGAUGAGGNNNNNNNNCCGAA AUCUGAAG 6426 439 UUCAGAUUA CUUGCAGG 2271 CCUGCAAG CUGAUGAGGNNNNNNNNCCGAA AAUCUGAA 6427 442 AGAUUACUU GCAGGGGA 2272 UCCCCUGC CUGAUGAGGNNNNNNNNCCGAA AGUAAUCU 6428 471 GACUGGCUU UGGCCCAA 1534 UUGGGCCA CUGAUGAGGNNNNNNNNCCGAA AGCCAGUC 5690 472 ACUGGCUUU GGCCCAAU 1535 AUUGGGCC CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU 5691 484 CCAAUGCUC AGCGUGAU 2273 AUCACGCU CUGAUGAGGNNNNNNNNCCGAA AGCAUUGG 6429 493 AGCGUGAUU CUGAGGAA 2274 UUCCUCAG CUGAUGAGGNNNNNNNNCCGAA AUCACGCU 6430 494 GCGUGAUUC UGAGGAAA 2275 UUUCCUCA CUGAUGAGGNNNNNNNNCCGAA AAUCACGC 6431 507 GAAAGGGUA UUGGUGAC 2276 GUCACCAA CUGAUGAGGNNNNNNNNCCGAA ACCCUUUC 6432 509 AAGGGUAUU GGUGACUG 2277 CAGUCACC CUGAUGAGGNNNNNNNNCCGAA AUACCCUU 6433 538 GUGACAGUA UCUUCUGC 2278 GCAGAAGA CUGAUGAGGNNNNNNNNCCGAA ACUGUCAC 6434 540 GACAGUAUC UUCUGCAA 2279 UUGCAGAA CUGAUGAGGNNNNNNNNCCGAA AUACUGUC 6435 542 CAGUAUCUU CUGCAAAA 2280 UUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AGAUACUG 6436 543 AGUAUCUUC UGCAAAAC 2281 GUUUUGCA CUGAUGAGGNNNNNNNNCCGAA AAGAUACU 6437 555 AAAACACUC ACCAUUCC 2282 GGAAUGGU CUGAUGAGGNNNNNNNNCCGAA AGUGUUUU 6438 561 CUCACCAUU CCCAGGGU 2283 ACCCUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGUGAG 6439 562 UCACCAUUC CCAGGGUG 2284 CACCCUGG CUGAUGAGGNNNNNNNNCCGAA AAUGGUGA 6440 573 AGGGUGGUU GGAAAUGA 2285 UCAUUUCC CUGAUGAGGNNNNNNNNCCGAA ACCACCCU 6441 583 GAAAUGAUA CUGGAGCC 2286 GGCUCCAG CUGAUGAGGNNNNNNNNCCGAA AUCAUUUC 6442 593 UGGAGCCUA CAAGUGCU 1546 AGCACUUG CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA 5702 602 CAAGUGCUC GUACCGGG 2287 CCCGGUAC CUGAUGAGGNNNNNNNNCCGAA AGCACUUG 6443 605 GUGCUCGUA CCGGGACG 2288 CGUCCCGG CUGAUGAGGNNNNNNNNCCGAA ACGAGCAC 6444 615 CGGGACGUC GACAUAGC 2289 GCUAUGUC CUGAUGAGGNNNNNNNNCCGAA ACGUCCCG 6445 621 GUCGACAUA GCCUCCAC 2290 GUGGAGGC CUGAUGAGGNNNNNNNNCCGAA AUGUCGAC 6446 626 CAUAGCCUC CACUGUUU 2291 AAACAGUG CUGAUGAGGNNNNNNNNCCGAA AGGCUAUG 6447 633 UCCACUGUU UAUGUCUA 2292 UAGACAUA CUGAUGAGGNNNNNNNNCCGAA ACAGUGGA 6448 634 CCACUGUUU AUGUCUAU 2293 AUAGACAU CUGAUGAGGNNNNNNNNCCGAA AACAGUGG 6449 635 CACUGUUUA UGUCUAUG 2294 CAUAGACA CUGAUGAGGNNNNNNNNCCGAA AAACAGUG 6450 639 GUUUAUGUC UAUGUUCG 2295 CGAACAUA CUGAUGAGGNNNNNNNNCCGAA ACAUAAAC 6451 641 UUAUGUCUA UGUUCGAG 2296 CUCGAACA CUGAUGAGGNNNNNNNNCCGAA AGACAUAA 6452 645 GUCUAUGUU CGAGAUUA 2297 UAAUCUCG CUGAUGAGGNNNNNNNNCCGAA ACAUAGAC 6453 646 UCUAUGUUC GAGAUUAC 2298 GUAAUCUC CUGAUGAGGNNNNNNNNCCGAA AACAUAGA 6454 652 UUCGAGAUU ACAGAUCA 2299 UGAUCUGU CUGAUGAGGNNNNNNNNCCGAA AUCUCGAA 6455 653 UCGAGAUUA CAGAUCAC 2300 GUGAUCUG CUGAUGAGGNNNNNNNNCCGAA AAUCUCGA 6456 659 UUACAGAUC ACCAUUCA 2301 UGAAUGGU CUGAUGAGGNNNNNNNNCCGAA AUCUGUAA 6457 665 AUCACCAUU CAUCGCCU 2302 AGGCGAUG CUGAUGAGGNNNNNNNNCCGAA AUGGUGAU 6458 666 UCACCAUUC AUCGCCUC 2303 GAGGCGAU CUGAUGAGGNNNNNNNNCCGAA AAUGGUGA 6459 669 CCAUUCAUC GCCUCUGU 2304 ACAGAGGC CUGAUGAGGNNNNNNNNCCGAA AUGAAUGG 6460 674 CAUCGCCUC UGUCAGUG 2305 CACUGACA CUGAUGAGGNNNNNNNNCCGAA AGGCGAUG 6461 678 GCCUCUGUC AGUGACCA 2306 UGGUCACU CUGAUGAGGNNNNNNNNCCGAA ACAGAGGC 6462 696 CAUGGCAUC GUGUACAU 2307 AUGUACAC CUGAUGAGGNNNNNNNNCCGAA AUGCCAUG 6463 701 CAUCGUGUA CAUCACCG 2308 CGGUGAUG CUGAUGAGGNNNNNNNNCCGAA ACACGAUG 6464 705 GUGUACAUC ACCGAGAA 2309 UUCUCGGU CUGAUGAGGNNNNNNNNCCGAA AUGUACAC 6465 735 GUGGUGAUC CCCUGCCG 2310 CGGCAGGG CUGAUGAGGNNNNNNNNCCGAA AUCACCAC 6466 749 CCGAGGGUC GAUUUCAA 2311 UUGAAAUC CUGAUGAGGNNNNNNNNCCGAA ACCCUCGG 6467 753 GGGUCGAUU UCAAACCU 2312 AGGUUUGA CUGAUGAGGNNNNNNNNCCGAA AUCGACCC 6468 754 GGUCGAUUU CAAACCUC 2313 GAGGUUUG CUGAUGAGGNNNNNNNNCCGAA AAUCGACC 6469 755 GUCGAUUUC AAACCUCA 2314 UGAGGUUU CUGAUGAGGNNNNNNNNCCGAA AAAUCGAC 6470 762 UCAAACCUC AAUGUGUC 2315 GACACAUU CUGAUGAGGNNNNNNNNCCGAA AGGUUUGA 6471 770 CAAUGUGUC UCUUUGCG 2316 CGCAAAGA CUGAUGAGGNNNNNNNNCCGAA ACACAUUG 6472 772 AUGUGUCUC UUUGCGCU 2317 AGCGCAAA CUGAUGAGGNNNNNNNNCCGAA AGACACAU 6473 774 GUGUCUCUU UGCGCUAG 2318 CUAGCGCA CUGAUGAGGNNNNNNNNCCGAA AGAGACAC 6474 775 UGUCUCUUU GCGCUAGG 2319 CCUAGCGC CUGAUGAGGNNNNNNNNCCGAA AAGAGACA 6475 781 UUUGCGCUA GGUAUCCA 2320 UGGAUACC CUGAUGAGGNNNNNNNNCCGAA AGCGCAAA 6476 785 CGCUAGGUA UCCAGAAA 2321 UUUCUGGA CUGAUGAGGNNNNNNNNCCGAA ACCUAGCG 6477 787 CUAGGUAUC CAGAAAAG 2322 CUUUUCUG CUGAUGAGGNNNNNNNNCCGAA AUACCUAG 6478 800 AAAGAGAUU UGUUCCGG 2323 CCGGAACA CUGAUGAGGNNNNNNNNCCGAA AUCUCUUU 6479 801 AAGAGAUUU GUUCCGGA 2324 UCCGGAAC CUGAUGAGGNNNNNNNNCCGAA AAUCUCUU 6480 804 AGAUUUGUU CCGGAUGG 2325 CCAUCCGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUCU 6481 805 GAUUUGUUC CGGAUGGA 2326 UCCAUCCG CUGAUGAGGNNNNNNNNCCGAA AACAAAUC 6482 822 AACAGAAUU UCCUGGGA 1595 UCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU 5751 823 ACAGAAUUU CCUGGGAC 1596 GUCCCAGG CUGAUGAGGNNNNNNNNCCGAA AAUUCUGU 5752 824 CAGAAUUUC CUGGGACA 1597 UGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AAAUUCUG 5753 840 AGCGAGAUA GGCUUUAC 2327 GUAAAGCC CUGAUGAGGNNNNNNNNCCGAA AUCUCGCU 6483 845 GAUAGGCUU UACUCUCC 2328 GGAGAGUA CUGAUGAGGNNNNNNNNCCGAA AGCCUAUC 6484 846 AUAGGCUUU ACUCUCCC 2329 GGGAGAGU CUGAUGAGGNNNNNNNNCCGAA AAGCCUAU 6485 847 UAGGCUUUA CUCUCCCC 2330 GGGGAGAG CUGAUGAGGNNNNNNNNCCGAA AAAGCCUA 6486 850 GCUUUACUC UCCCCAGU 2331 ACUGGGGA CUGAUGAGGNNNNNNNNCCGAA AGUAAAGC 6487 852 UUUACUCUC CCCAGUUA 2332 UAACUGGG CUGAUGAGGNNNNNNNNCCGAA AGAGUAAA 6488 859 UCCCCAGUU ACAUGAUC 2333 GAUCAUGU CUGAUGAGGNNNNNNNNCCGAA ACUGGGGA 6489 860 CCCCAGUUA CAUGAUCA 2334 UGAUCAUG CUGAUGAGGNNNNNNNNCCGAA AACUGGGG 6490 867 UACAUGAUC AGCUAUGC 1605 GCAUAGCU CUGAUGAGGNNNNNNNNCCGAA AUCAUGUA 5761 872 GAUCAGCUA UGCCGGCA 2335 UGCCGGCA CUGAUGAGGNNNNNNNNCCGAA AGCUGAUC 6491 885 GGCAUGGUC UUCUGUGA 1607 UCACAGAA CUGAUGAGGNNNNNNNNCCGAA ACCAUGCC 5763 887 CAUGGUCUU CUGUGAGG 2336 CCUCACAG CUGAUGAGGNNNNNNNNCCGAA AGACCAUG 6492 888 AUGGUCUUC UGUGAGGC 2337 GCCUCACA CUGAUGAGGNNNNNNNNCCGAA AAGACCAU 6493 903 GCAAAGAUC AAUGAUGA 2338 UCAUCAUU CUGAUGAGGNNNNNNNNCCGAA AUCUUUGC 6494 917 UGAAACCUA UCAGUCUA 2339 UAGACUGA CUGAUGAGGNNNNNNNNCCGAA AGGUUUCA 6495 919 AAACCUAUC AGUCUAUC 2340 GAUAGACU CUGAUGAGGNNNNNNNNCCGAA AUAGGUUU 6496 923 CUAUCAGUC UAUCAUGU 2341 ACAUGAUA CUGAUGAGGNNNNNNNNCCGAA ACUGAUAG 6497 925 AUCAGUCUA UCAUGUAC 2342 GUACAUGA CUGAUGAGGNNNNNNNNCCGAA AGACUGAU 6498 927 CAGUCUAUC AUGUACAU 2343 AUGUACAU CUGAUGAGGNNNNNNNNCCGAA AUAGACUG 5772 932 UAUCAUGUA CAUAGUUG 2344 CAACUAUG CUGAUGAGGNNNNNNNNCCGAA ACAUGAUA 6499 936 AUGUACAUA GUUGUGGU 2345 ACCACAAC CUGAUGAGGNNNNNNNNCCGAA AUGUACAU 6500 939 UACAUAGUU GUGGUUGU 2346 ACAACCAC CUGAUGAGGNNNNNNNNCCGAA ACUAUGUA 6501 945 GUUGUGGUU GUAGGAUA 2347 UAUCCUAC CUGAUGAGGNNNNNNNNCCGAA ACCACAAC 6502 948 GUGGUUGUA GGAUAUAG 2348 CUAUAUCC CUGAUGAGGNNNNNNNNCCGAA ACAACCAC 6503 953 UGUAGGAUA UAGGAUUU 2349 AAAUCCUA CUGAUGAGGNNNNNNNNCCGAA AUCCUACA 6504 955 UAGGAUAUA GGAUUUAU 2350 AUAAAUCC CUGAUGAGGNNNNNNNNCCGAA AUAUCCUA 6505 960 UAUAGGAUU UAUGAUGU 1626 ACAUCAUA CUGAUGAGGNNNNNNNNCCGAA AUCCUAUA 5782 961 AUAGGAUUU AUGAUGUG 1627 CACAUCAU CUGAUGAGGNNNNNNNNCCGAA AAUCCUAU 5783 962 UAGGAUUUA UGAUGUGA 2351 UCACAUCA CUGAUGAGGNNNNNNNNCCGAA AAAUCCUA 6506 972 GAUGUGAUU CUGAGCCC 2352 GGGCUCAG CUGAUGAGGNNNNNNNNCCGAA AUCACAUC 6507 973 AUGUGAUUC UGAGCCCC 2353 GGGGCUCA CUGAUGAGGNNNNNNNNCCGAA AAUCACAU 6508 993 CAUGAAAUU GAGCUAUC 2354 GAUAGCUC CUGAUGAGGNNNNNNNNCCGAA AUUUCAUG 6509 999 AUUGAGCUA UCUGCCGG 2355 CCGGCAGA CUGAUGAGGNNNNNNNNCCGAA AGCUCAAU 6510 1001 UGAGCUAUC UGCCGGAG 2356 CUCCGGCA CUGAUGAGGNNNNNNNNCCGAA AUAGCUCA 6511 1017 GAAAAACUU GUCUUAAA 2357 UUUAAGAC CUGAUGAGGNNNNNNNNCCGAA AGUUUUUC 6512 1020 AAACUUGUC UUAAAUUG 2358 CAAUUUAA CUGAUGAGGNNNNNNNNCCGAA ACAAGUUU 6513 1022 ACUUGUCUU AAAUUGUA 2359 UACAAUUU CUGAUGAGGNNNNNNNNCCGAA AGACAAGU 6514 1023 CUUGUCUUA AAUUGUAC 1641 GUACAAUU CUGAUGAGGNNNNNNNNCCGAA AAGACAAG 5797 1027 UCUUAAAUU GUACAGCG 2360 CGCUGUAC CUGAUGAGGNNNNNNNNCCGAA AUUUAAGA 6515 1030 UAAAUUGUA CAGCGAGA 2361 UCUCGCUG CUGAUGAGGNNNNNNNNCCGAA ACAAUUUA 6516 1047 ACAGAGCUC AAUGUGGG 2362 CCCACAUU CUGAUGAGGNNNNNNNNCCGAA AGCUCUGU 6517 1059 GUGGGGCUU GAUUUCAC 2363 GUGAAAUC CUGAUGAGGNNNNNNNNCCGAA AGCCCCAC 6518 1063 GGCUUGAUU UCACCUGG 2364 CCAGGUGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGCC 6519 1064 GCUUGAUUU CACCUGGC 2365 GCCAGGUG CUGAUGAGGNNNNNNNNCCGAA AAUCAAGC 6520 1065 CUUGAUUUC ACCUGGCA 2366 UGCCAGGU CUGAUGAGGNNNNNNNNCCGAA AAAUCAAG 6521 1076 CUGGCACUC UCCACCUU 2367 AAGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGUGCCAG 6522 1078 GGCACUCUC CACCUUCA 2368 UGAAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGUGCC 6523 1084 CUCCACCUU CAAAGUCU 2369 AGACUUUG CUGAUGAGGNNNNNNNNCCGAA AGGUGGAG 6524 1085 UCCACCUUC AAAGUCUC 2370 GAGACUUU CUGAUGAGGNNNNNNNNCCGAA AAGGUGGA 6525 1091 UUCAAAGUC UCAUCAUA 2371 UAUGAUGA CUGAUGAGGNNNNNNNNCCGAA ACUUUGAA 6526 1093 CAAAGUCUC AUCAUAAG 2372 CUUAUGAU CUGAUGAGGNNNNNNNNCCGAA AGACUUUG 6527 1096 AGUCUCAUC AUAAGAAG 2373 CUUCUUAU CUGAUGAGGNNNNNNNNCCGAA AUGAGACU 6528 1099 CUCAUCAUA AGAAGAUU 2374 AAUCUUCU CUGAUGAGGNNNNNNNNCCGAA AUGAUGAG 6529 1107 AAGAAGAUU GUAAACCG 2375 CGGUUUAC CUGAUGAGGNNNNNNNNCCGAA AUCUUCUU 6530 1110 AAGAUUGUA AACCGGGA 2376 UCCCGGUU CUGAUGAGGNNNNNNNNCCGAA ACAAUCUU 6531 1130 GAAACCCUU UCCUGGGA 2377 UCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AGGGUUUC 6532 1131 AAACCCUUU CCUGGGAC 2378 GUCCCAGG CUGAUGAGGNNNNNNNNCCGAA AAGGGUUU 6533 1132 AACCCUUUC CUGGGACU 2379 AGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AAAGGGUU 6534 1154 GAAGAUGUU UUUGAGCA 2380 UGCUCAAA CUGAUGAGGNNNNNNNNCCGAA ACAUCUUC 6535 1155 AAGAUGUUU UUGAGCAC 2381 GUGCUCAA CUGAUGAGGNNNNNNNNCCGAA AACAUCUU 6536 1156 AGAUGUUUU UGAGCACC 2382 GGUGCUCA CUGAUGAGGNNNNNNNNCCGAA AAACAUCU 6537 1157 GAUGUUUUU GAGCACCU 2383 AGGUGCUC CUGAUGAGGNNNNNNNNCCGAA AAAACAUC 6538 1166 GAGCACCUU GACAAUAG 2384 CUAUUGUC CUGAUGAGGNNNNNNNNCCGAA AGGUGCUC 6539 1173 UUGACAAUA GAAAGUGU 2385 ACACUUUC CUGAUGAGGNNNNNNNNCCGAA AUUGUCAA 6540 1205 AGGGGAAUA CACCUGUG 2386 CACAGGUG CUGAUGAGGNNNNNNNNCCGAA AUUCCCCU 6541 1215 ACCUGUGUA GCGUCCAG 2387 CUGGACGC CUGAUGAGGNNNNNNNNCCGAA ACACAGGU 6542 1220 UGUAGCGUC CAGUGGAC 2388 GUCCACUG CUGAUGAGGNNNNNNNNCCGAA ACGCUACA 6543 1236 CGGAUGAUC AAGAGAAA 2389 UUUCUCUU CUGAUGAGGNNNNNNNNCCGAA AUCAUCCG 6544 1246 AGAGAAAUA GAACAUUU 2390 AAAUGUUC CUGAUGAGGNNNNNNNNCCGAA AUUUCUCU 6545 1253 UAGAACAUU UGUCCGAG 2391 CUCGGACA CUGAUGAGGNNNNNNNNCCGAA AUGUUCUA 6546 1254 AGAACAUUU GUCCGAGU 2392 ACUCGGAC CUGAUGAGGNNNNNNNNCCGAA AAUGUUCU 6547 1257 ACAUUUGUC CGAGUUCA 2393 UGAACUCG CUGAUGAGGNNNNNNNNCCGAA ACAAAUGU 6548 1263 GUCCGAGUU CACACAAA 2394 UUUGUGUG CUGAUGAGGNNNNNNNNCCGAA ACUCGGAC 6549 1264 UCCGAGUUC ACACAAAG 2395 CUUUGUGU CUGAUGAGGNNNNNNNNCCGAA AACUCGGA 6550 1276 CAAAGCCUU UUAUUGCU 2396 AGCAAUAA CUGAUGAGGNNNNNNNNCCGAA AGGCUUUG 6551 1277 AAAGCCUUU UAUUGCUU 2397 AAGCAAUA CUGAUGAGGNNNNNNNNCCGAA AAGGCUUU 6552 1278 AAGCCUUUU AUUGCUUU 2398 AAAGCAAU CUGAUGAGGNNNNNNNNCCGAA AAAGGCUU 6553 1279 AGCCUUUUA UUGCUUUC 2399 GAAAGCAA CUGAUGAGGNNNNNNNNCCGAA AAAAGGCU 6554 1281 CCUUUUAUU GCUUUCGG 2400 CCGAAAGC CUGAUGAGGNNNNNNNNCCGAA AUAAAAGG 6555 1285 UUAUUGCUU UCGGUAGU 2401 ACUACCGA CUGAUGAGGNNNNNNNNCCGAA AGCAAUAA 6556 1286 UAUUGCUUU CGGUAGUG 2402 CACUACCG CUGAUGAGGNNNNNNNNCCGAA AAGCAAUA 6557 1287 AUUGCUUUC GGUAGUGG 2403 CCACUACC CUGAUGAGGNNNNNNNNCCGAA AAAGCAAU 6558 1291 CUUUCGGUA GUGGGAUG 2404 CAUCCCAC CUGAUGAGGNNNNNNNNCCGAA ACCGAAAG 6559 1304 GAUGAAAUC UUUGGUGG 2405 CCACCAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCAUC 6560 1306 UGAAAUCUU UGGUGGAA 2406 UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCA 6561 1307 GAAAUCUUU GGUGGAAG 2407 CUUCCACC CUGAUGAGGNNNNNNNNCCGAA AAGAUUUC 6562 1330 UGGGCAGUC AAGUCCGA 2408 UCGGACUU CUGAUGAGGNNNNNNNNCCGAA ACUGCCCA 6563 1335 AGUCAAGUC CGAAUCCC 2409 GGGAUUCG CUGAUGAGGNNNNNNNNCCGAA ACUUGACU 6564 1341 GUCCGAAUC CCUGUGAA 2410 UUCACAGG CUGAUGAGGNNNNNNNNCCGAA AUUCGGAC 6565 1352 UGUGAAGUA UCUCAGUU 2411 AACUGAGA CUGAUGAGGNNNNNNNNCCGAA ACUUCACA 6566 1354 UGAAGUAUC UCAGUUAC 2412 GUAACUGA CUGAUGAGGNNNNNNNNCCGAA AUACUUCA 6567 1356 AAGUAUCUC AGUUACCC 2413 GGGUAACU CUGAUGAGGNNNNNNNNCCGAA AGAUACUU 6568 1360 AUCUCAGUU ACCCAGCU 2414 AGCUGGGU CUGAUGAGGNNNNNNNNCCGAA ACUGAGAU 6569 1361 UCUCAGUUA CCCAGCUC 2415 GAGCUGGG CUGAUGAGGNNNNNNNNCCGAA AACUGAGA 6570 1369 ACCCAGCUC CUGAUAUC 2416 GAUAUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUGGGU 6571 1375 CUCCUGAUA UCAAAUGG 2417 CCAUUUGA CUGAUGAGGNNNNNNNNCCGAA AUCAGGAG 6572 1377 CCUGAUAUC AAAUGGUA 2418 UACCAUUU CUGAUGAGGNNNNNNNNCCGAA AUAUCAGG 6573 1385 CAAAUGGUA CAGAAAUG 2419 CAUUUCUG CUGAUGAGGNNNNNNNNCCGAA ACCAUUUG 6574 1404 AGGCCCAUU GAGUCCAA 2420 UUGGACUC CUGAUGAGGNNNNNNNNCCGAA AUGGGCCU 6575 1409 CAUUGAGUC CAACUACA 2421 UGUAGUUG CUGAUGAGGNNNNNNNNCCGAA ACUCAAUG 6576 1415 GUCCAACUA CACAAUGA 2422 UCAUUGUG CUGAUGAGGNNNNNNNNCCGAA AGUUGGAC 6577 1425 ACAAUGAUU GUUGGCGA 2423 UCGCCAAC CUGAUGAGGNNNNNNNNCCGAA AUCAUUGU 6578 1428 AUGAUUGUU GGCGAUGA 2424 UCAUCGCC CUGAUGAGGNNNNNNNNCCGAA ACAAUCAU 6579 1440 GAUGAACUC ACCAUCAU 2425 AUGAUGGU CUGAUGAGGNNNNNNNNCCGAA AGUUCAUC 6580 1446 CUCACCAUC AUGGAAGU 2426 ACUUCCAU CUGAUGAGGNNNNNNNNCCGAA AUGGUGAG 6581 1478 AGGAAACUA CACGGUCA 2427 UGACCGUG CUGAUGAGGNNNNNNNNCCGAA AGUUUCCU 6582 1485 UACACGGUC AUCCUCAC 2428 GUGAGGAU CUGAUGAGGNNNNNNNNCCGAA ACCGUGUA 6583 1488 ACGGUCAUC CUCACCAA 2429 UUGGUGAG CUGAUGAGGNNNNNNNNCCGAA AUGACCGU 6584 1491 GUCAUCCUC ACCAACCC 2430 GGGUUGGU CUGAUGAGGNNNNNNNNCCGAA AGGAUGAC 6585 1503 AACCCCAUU UCAAUGGA 2431 UCCAUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGGGUU 6586 1504 ACCCCAUUU CAAUGGAG 2432 CUCCAUUG CUGAUGAGGNNNNNNNNCCGAA AAUGGGGU 6587 1505 CCCCAUUUC AAUGGAGA 2433 UCUCCAUU CUGAUGAGGNNNNNNNNCCGAA AAAUGGGG 6588 1530 CACAUGGUC UCUCUGGU 2434 ACCAGAGA CUGAUGAGGNNNNNNNNCCGAA ACCAUGUG 6589 1532 CAUGGUCUC UCUGGUUG 2435 CAACCAGA CUGAUGAGGNNNNNNNNCCGAA AGACCAUG 6590 1534 UGGUCUCUC UGGUUGUG 1714 CACAACCA CUGAUGAGGNNNNNNNNCCGAA AGAGACCA 5870 1539 UCUCUGGUU GUGAAUGU 2436 ACAUUCAC CUGAUGAGGNNNNNNNNCCGAA ACCAGAGA 6591 1548 GUGAAUGUC CCACCCCA 2437 UGGGGUGG CUGAUGAGGNNNNNNNNCCGAA ACAUUCAC 6592 1560 CCCCAGAUC GGUGAGAA 2438 UUCUCACC CUGAUGAGGNNNNNNNNCCGAA AUCUGGGG 5874 1574 GAAAGCCUU GAUCUCGC 2439 GCGAGAUC CUGAUGAGGNNNNNNNNCCGAA AGGCUUUC 6593 1578 GCCUUGAUC UCGCCUAU 2440 AUAGGCGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGGC 6594 1580 CUUGAUCUC GCCUAUGG 2441 CCAUAGGC CUGAUGAGGNNNNNNNNCCGAA AGAUCAAG 6595 1585 UCUCGCCUA UGGAUUCC 2442 GGAAUCCA CUGAUGAGGNNNNNNNNCCGAA AGGCGAGA 6596 1591 CUAUGGAUU CCUACCAG 2443 CUGGUAGG CUGAUGAGGNNNNNNNNCCGAA AUCCAUAG 6597 1592 UAUGGAUUC CUACCAGU 2444 ACUGGUAG CUGAUGAGGNNNNNNNNCCGAA AAUCCAUA 6598 1595 GGAUUCCUA CCAGUAUG 2445 CAUACUGG CUGAUGAGGNNNNNNNNCCGAA AGGAAUCC 6599 1601 CUACCAGUA UGGGACCA 2446 UGGUCCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG 6600 1619 GCAGACAUU GACAUGCA 2447 UGCAUGUC CUGAUGAGGNNNNNNNNCCGAA AUGUCUGC 6601 1632 UGCACAGUC UACGCCAA 2448 UUGGCGUA CUGAUGAGGNNNNNNNNCCGAA ACUGUGCA 6602 1634 CACAGUCUA CGCCAACC 2449 GGUUGGCG CUGAUGAGGNNNNNNNNCCGAA AGACUGUG 6603 1645 CCAACCCUC CCCUGCAC 2450 GUGCAGGG CUGAUGAGGNNNNNNNNCCGAA AGGGUUGG 6604 1659 CACCACAUC CAGUGGUA 2451 UACCACUG CUGAUGAGGNNNNNNNNCCGAA AUGUGGUG 6605 1667 CCAGUGGUA CUGGCAGC 2452 GCUGCCAG CUGAUGAGGNNNNNNNNCCGAA ACCACUGG 6606 1677 UGGCAGCUA GAAGAAGC 2453 GCUUCUUC CUGAUGAGGNNNNNNNNCCGAA AGCUGCCA 6607 1691 AGCCUGCUC CUACAGAC 2454 GUCUGUAG CUGAUGAGGNNNNNNNNCCGAA AGCAGGCU 6608 1694 CUGCUCCUA CAGACCCG 2455 CGGGUCUG CUGAUGAGGNNNNNNNNCCGAA AGGAGCAG 6609 1718 AAGCCCGUA UGCUUGUA 2456 UACAAGCA CUGAUGAGGNNNNNNNNCCGAA ACGGGCUU 6610 1723 CGUAUGCUU GUAAAGAA 2457 UUCUUUAC CUGAUGAGGNNNNNNNNCCGAA AGCAUACG 6611 1726 AUGCUUGUA AAGAAUGG 2458 CCAUUCUU CUGAUGAGGNNNNNNNNCCGAA ACAAGCAU 6612 1750 UGGAGGAUU UCCAGGGG 2459 CCCCUGGA CUGAUGAGGNNNNNNNNCCGAA AUCCUCCA 6613 1751 GGAGGAUUU CCAGGGGG 2460 CCCCCUGG CUGAUGAGGNNNNNNNNCCGAA AAUCCUCC 6614 1752 GAGGAUUUC CAGGGGGG 2461 CCCCCCUG CUGAUGAGGNNNNNNNNCCGAA AAAUCCUC 6615 1770 AACAAGAUC GAAGUCAC 2462 GUGACUUC CUGAUGAGGNNNNNNNNCCGAA AUCUUGUU 6616 1776 AUCGAAGUC ACCAAAAA 2463 UUUUUGGU CUGAUGAGGNNNNNNNNCCGAA ACUUCGAU 6617 1790 AAACCAAUA UGCCCUGA 2464 UCAGGGCA CUGAUGAGGNNNNNNNNCCGAA AUUGGUUU 6618 1800 GCCCUGAUU GAAGGAAA 2465 UUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUCAGGGC 6619 1821 AAAACUGUA AGUACGCU 2466 AGCGUACU CUGAUGAGGNNNNNNNNCCGAA ACAGUUUU 6620 1825 CUGUAAGUA CGCUGGUC 2467 GACCAGCG CUGAUGAGGNNNNNNNNCCGAA ACUUACAG 6621 1833 ACGCUGGUC AUCCAAGC 2468 GCUUGGAU CUGAUGAGGNNNNNNNNCCGAA ACCAGCGU 6622 1836 CUGGUCAUC CAAGCUGC 2469 GCAGCUUG CUGAUGAGGNNNNNNNNCCGAA AUGACCAG 6623 1853 CAACGUGUC AGCGUUGU 2470 ACAACGCU CUGAUGAGGNNNNNNNNCCGAA ACACGUUG 6624 1859 GUCAGCGUU GUACAAAU 2471 AUUUGUAC CUGAUGAGGNNNNNNNNCCGAA ACGCUGAC 6625 1862 AGCGUUGUA CAAAUGUG 2472 CACAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAACGCU 6626 1878 GAAGCCAUC AACAAAGC 2473 GCUUUGUU CUGAUGAGGNNNNNNNNCCGAA AUGGCUUC 6627 1905 GAGAGGGUC AUCUCCUU 2474 AAGGAGAU CUGAUGAGGNNNNNNNNCCGAA ACCCUCUC 6628 1908 AGGGUCAUC UCCUUCCA 2475 UGGAAGGA CUGAUGAGGNNNNNNNNCCGAA AUGACCCU 6629 1910 GGUCAUCUC CUUCCAUG 2476 CAUGGAAG CUGAUGAGGNNNNNNNNCCGAA AGAUGACC 6630 1913 CAUCUCCUU CCAUGUGA 2477 UCACAUGG CUGAUGAGGNNNNNNNNCCGAA AGGAGAUG 6631 1914 AUCUCCUUC CAUGUGAU 2478 AUCACAUG CUGAUGAGGNNNNNNNNCCGAA AAGGAGAU 6632 1923 CAUGUGAUC AGGGGUCC 2479 GGACCCCU CUGAUGAGGNNNNNNNNCCGAA AUCACAUG 6633 1930 UCAGGGGUC CUGAAAUU 2480 AAUUUCAG CUGAUGAGGNNNNNNNNCCGAA ACCCCUGA 6634 1938 CCUGAAAUU ACUGUGCA 2481 UGCACAGU CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG 6635 1939 CUGAAAUUA CUGUGCAA 2482 UUGCACAG CUGAUGAGGNNNNNNNNCCGAA AAUUUCAG 6636 1982 GAGUGUGUC CCUGUUGU 2483 ACAACAGG CUGAUGACGNNNNNNNNCCGAA ACACACUC 6637 1988 GUCCCUGUU GUGCACUG 2484 CAGUGCAC CUGAUGAGGNNNNNNNNCCGAA ACAGGGAC 6638 2008 ACAGAAAUA CGUUUGAG 2485 CUCAAACG CUGAUGAGGNNNNNNNNCCGAA AUUUCUGU 6639 2012 AAAUACGUU UGAGAACC 2486 GGUUCUCA CUGAUGAGGNNNNNNNNCCGAA ACGUAUUU 6640 2013 AAUACGUUU GAGAACCU 2487 AGGUUCUC CUGAUGAGGNNNNNNNNCCGAA AACGUAUU 6641 2022 GAGAACCUC ACGUGGUA 2488 UACCACGU CUGAUGAGGNNNNNNNNCCGAA AGGCUCUC 6642 2030 CACGUGGUA CAAGCUUG 2489 CAAGCUUG CUGAUGAGGNNNNNNNNCCGAA ACCACGUG 6643 2037 UACAAGCUU GGCUCACA 2490 UGUGAGCC CUGAUGAGGNNNNNNNNCCGAA AGCUUGUA 6644 2042 GCUUGGCUC ACAGGCAA 2491 UUGCCUGU CUGAUGAGGNNNNNNNNCCGAA AGCCAAGC 6645 2054 GGCAACAUC GGUCCACA 2492 UGUGGACC CUGAUGAGGNNNNNNNNCCGAA AUGUUGCC 6646 2058 ACAUCGGUC CACAUGGG 2493 CCCAUGUG CUGAUGAGGNNNNNNNNCCGAA ACCGAUGU 6647 2072 GGGCGAAUC ACUCACAC 2494 GUGUGAGU CUGAUGAGGNNNNNNNNCCGAA AUUCGCCC 6648 2076 GAAUCACUC ACACCAGU 2495 ACUGGUGU CUGAUGAGGNNNNNNNNCCGAA AGUGAUUC 6649 2085 ACACCAGUU UGCAAGAA 2496 UUCUUGCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUGU 6650 2086 CACCAGUUU GCAAGAAC 2497 GUUCUUGC CUGAUGAGGNNNNNNNNCCGAA AACUGGUG 6651 2096 CAAGAACUU GGAUGCUC 2498 GAGCAUCC CUGAUGAGGNNNNNNNNCCGAA AGUUCUUG 6652 2104 UGGAUGCUC UUUGGAAA 2499 UUUCCAAA CUGAUGAGGNNNNNNNNCCGAA AGCAUCCA 6653 2106 GAUGCUCUU UGGAAACU 2500 AGUUUCCA CUGAUGAGGNNNNNNNNCCGAA AGAGCAUC 6654 2107 AUGCUCUUU GGAAACUG 2501 CAGUUUCC CUGAUGAGGNNNNNNNNCCGAA AAGAGCAU 6655 2129 CACCAUGUU UUCUAACA 2502 UGUUAGAA CUGAUGAGGNNNNNNNNCCGAA ACAUGGUG 6656 2130 ACCAUGUUU UCUAACAG 2503 CUGUUAGA CUGAUGAGGNNNNNNNNCCGAA AACAUGGU 6657 2131 CCAUGUUUU CUAACAGC 2504 GCUGUUAG CUGAUGAGGNNNNNNNNCCGAA AAACAUGG 6658 2132 CAUGUUUUC UAACAGCA 2505 UGCUGUUA CUGAUGAGGNNNNNNNNCCGAA AAAACAUG 6659 2134 UGUUUUCUA ACAGCACA 2506 UGUGCUGU CUGAUGAGGNNNNNNNNCCGAA AGAAAACA 6660 2151 AAUGACAUC UUGAUUGU 2507 ACAAUCAA CUGAUGAGGNNNNNNNNCCGAA AUGUCAUU 6661 2153 UGACAUCUU GAUUGUGG 2508 CCACAAUC CUGAUGAGGNNNNNNNNCCGAA AGAUGUCA 6662 2157 AUCUUGAUU GUGGCAUU 2509 AAUGCCAC CUGAUGAGGNNNNNNNNCCGAA AUCAAGAU 6663 2165 UGUGGCAUU UCAGAAUG 2510 CAUUCUGA CUGAUGAGGNNNNNNNNCCGAA AUGCCACA 6664 2166 GUGGCAUUU CAGAAUGC 2511 GCAUUCUG CUGAUGAGGNNNNNNNNCCGAA AAUGCCAC 6665 2167 UGGCAUUUC AGAAUGCC 2512 GGCAUUCU CUGAUGAGGNNNNNNNNCCGAA AAAUGCCA 6666 2177 GAAUGCCUC UCUGCAGG 2513 CCUGCAGA CUGAUGAGGNNNNNNNNCCGAA AGGCAUUC 6667 2179 AUGCCUCUC UGCAGGAC 2514 GUCCUGCA CUGAUGAGGNNNNNNNNCCGAA AGAGGCAU 6668 2198 AGGCGACUA UGUUUGCU 2515 AGCAAACA CUGAUGAGGNNNNNNNNCCGAA AGUCGCCU 6669 2202 GACUAUGUU UGCUCUGC 2516 GCAGAGCA CUGAUGAGGNNNNNNNNCCGAA ACAUAGUC 6670 2203 ACUAUGUUU GCUCUGCU 2517 AGCAGAGC CUGAUGAGGNNNNNNNNCCGAA AACAUAGU 6671 2207 UGUUUGCUC UGCUCAAG 2518 CUUGAGCA CUGAUGAGGNNNNNNNNCCGAA AGCAAACA 6672 2212 GCUCUGCUC AAGAUAAG 2519 CUUAUCUU CUGAUGAGGNNNNNNNNCCGAA AGCAGAGC 6673 2218 CUCAAGAUA AGAAGACC 2520 GGUCUUCU CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG 6674 2239 AAAGACAUU GCCUGGUC 2521 GACCAGGC CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU 6675 2247 UGCCUGGUC AAACAGCU 2522 AGCUGUUU CUGAUGAGGNNNNNNNNCCGAA ACCAGGCA 6676 2256 AAACAGCUC AUCAUCCU 2523 AGGAUGAU CUGAUGAGGNNNNNNNNCCGAA AGCUGUUU 6677 2259 CAGCUCAUC AUCCUAGA 2524 UCUAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGAGCUG 6678 2262 CUCAUCAUC CUAGAGCG 2525 CGCUCUAG CUGAUGAGGNNNNNNNNCCGAA AUGAUGAG 6679 2265 AUCAUCCUA GAGCGCAU 2526 AUGCGCUC CUGAUGAGGNNNNNNNNCCGAA AGGAUGAU 6680 2286 CCCAUGAUC ACCGGAAA 2527 UUUCCGGU CUGAUGAGGNNNNNNNNCCGAA AUCAUGGG 6681 2296 CCGGAAAUC UGGAGAAU 2528 AUUCUCCA CUGAUGAGGNNNNNNNNCCGAA AUUUCCGG 6682 2305 UGGAGAAUC AGACAACA 2529 UGUUGUCU CUGAUGAGGNNNNNNNNCCGAA AUUCUCCA 6683 2319 ACAACCAUU GGCGAGAC 2530 GUCUCGCC CUGAUGAGGNNNNNNNNCCGAA AUGGUUGU 6684 2331 GAGACCAUU GAAGUGAC 2531 GUCACUUC CUGAUGAGGNNNNNNNNCCGAA AUGGUCUC 6685 2341 AAGUGACUU GCCCAGCA 2532 UGCUGGGC CUGAUGAGGNNNNNNNNCCGAA AGUCACUU 6686 2351 CCCAGCAUC UGGAAAUC 2533 GAUUUCCA CUGAUGAGGNNNNNNNNCCGAA AUGCUGGG 6687 2359 CUGGAAAUC CUACCCCA 2534 UGGGGUAG CUGAUGAGGNNNNNNNNCCGAA AUUUCCAG 6688 2362 GAAAUCCUA CCCCACAC 2535 GUGUGGGG CUGAUGAGGNNNNNNNNCCGAA AGGAUUUC 6689 2373 CCACACAUU ACAUGGUU 2536 AACCAUGU CUGAUGAGGNNNNNNNNCCGAA AUGUGUGG 6690 2374 CACACAUUA CAUGGUUC 2537 GAACCAUG CUGAUGAGGNNNNNNNNCCGAA AAUGUGUG 6691 2381 UACAUGGUU CAAAGACA 2538 UGUCUUUG CUGAUGAGGNNNNNNNNCCGAA ACCAUGUA 6692 2382 ACAUGGUUC AAAGACAA 2539 UUGUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCAUGU 6693 2403 ACCCUGGUA GAAGAUUC 2540 GAAUCUUC CUGAUGAGGNNNNNNNNCCGAA ACCAGGGU 6694 2410 UAGAAGAUU CAGGCAUU 2541 AAUGCCUG CUGAUGAGGNNNNNNNNCCGAA AUCUUCUA 6695 2411 AGAAGAUUC AGGCAUUG 2542 CAAUGCCU CUGAUGAGGNNNNNNNNCCGAA AAUCUUCU 6696 2418 UCAGGCAUU GUACUGAG 2543 CUCAGUAC CUGAUGAGGNNNNNNNNCCGAA AUGCCUGA 6697 2421 GGCAUUGUA CUGAGAGA 2544 UCUCUCAG CUGAUGAGGNNNNNNNNCCGAA ACAAUGCC 6698 2449 ACCUGACUA UCCGCAGG 2545 CCUGCGGA CUGAUGAGGNNNNNNNNCCGAA AGUCAGGU 6699 2451 CUGACUAUC CGCAGGGU 2546 ACCCUGCG CUGAUGAGGNNNNNNNNCCGAA AUAGUCAG 6700 2481 GGAGGCCUC UACACCUG 2547 CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGGCCUCC 6701 2483 AGGCCUCUA CACCUGCC 1847 GGCAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCU 6003 2505 UGCAAUGUC CUUGGCUG 2548 CAGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACAUUGCA 6702 2508 AAUGUCCUU GGCUGUGC 2549 GCACAGCC CUGAUGAGGNNNNNNNNCCGAA AGGACAUU 6703 2532 GAGACGCUC UUCAUAAU 2550 AUUAUGAA CUGAUGAGGNNNNNNNNCCGAA AGCGUCUC 6704 2534 GACGCUCUU CAUAAUAG 2551 CUAUUAUG CUGAUGAGGNNNNNNNNCCGAA AGAGCGUC 6705 2535 ACGCUCUUC AUAAUAGA 2552 UCUAUUAU CUGAUGAGGNNNNNNNNCCGAA AAGAGCGU 6706 2538 CUCUUCAUA AUAGAAGG 2553 CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA AUGAAGAG 6707 2541 UUCAUAAUA GAAGGUGC 1857 GCACCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAUGAA 6013 2567 GACCAACUU GGAAGUCA 2554 UGACUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUGGUC 6708 2574 UUGGAAGUC AUUAUCCU 2555 AGGAUAAU CUGAUGAGGNNNNNNNNCCGAA ACUUCCAA 6709 2577 GAAGUCAUU AUCCUCGU 2556 ACGAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGACUUC 6710 2578 AAGUCAUUA UCCUCGUC 2557 GACGAGGA CUGAUGAGGNNNNNNNNCCGAA AAUGACUU 6711 2580 GUCAUUAUC CUCGUCGG 2558 CCGACGAG CUGAUGAGGNNNNNNNNCCGAA AUAAUGAC 6712 2583 AUUAUCCUC GUCGGCAC 2559 GUGCCGAC CUGAUGAGGNNNNNNNNCCGAA AGGAUAAU 6713 2586 AUCCUCGUC GGCACUGC 2560 GCAGUGCC CUGAUGAGGNNNNNNNNCCGAA ACGAGGAU 6714 2601 GCAGUGAUU GCCAUGUU 2561 AACAUGGC CUGAUGAGGNNNNNNNNCCGAA AUCACUGC 6715 2609 UGCCAUGUU CUUCUGGC 1867 GCCAGAAG CUGAUGAGGNNNNNNNNCCGAA ACAUGGCA 6023 2610 GCCAUGUUC UUCUGGCU 1868 AGCCAGAA CUGAUGAGGNNNNNNNNCCGAA AACAUGGC 6024 2612 CAUGUUCUU CUGGCUCC 2562 GGAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGAACAUG 6716 2613 AUGUUCUUC UGGCUCCU 2563 AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAACAU 6717 2619 UUCUGGCUC CUUCUUGU 2564 ACAAGAAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGAA 6027 2622 UGGCUCCUU CUUGUCAU 2565 AUGACAAG CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA 6718 2623 GGCUCCUUC UUGUCAUU 2566 AAUGACAA CUGAUGAGGNNNNNNNNCCGAA AAGGAGCC 6719 2625 CUCCUUCUU GUCAUUGU 2567 ACAAUGAC CUGAUGAGGNNNNNNNNCCGAA AGAAGGAG 6720 2628 CUUCUUGUC AUUGUCCU 2568 AGGACAAU CUGAUGAGGNNNNNNNNCCGAA ACAAGAAG 6721 2631 CUUGUCAUU GUCCUACG 2569 CGUAGGAC CUGAUGAGGNNNNNNNNCCGAA AUGACAAG 6722 2634 GUCAUUGUC CUACGGAC 2570 GUCCGUAG CUGAUGAGGNNNNNNNNCCGAA ACAAUGAC 6723 2637 AUUGUCCUA CGGACCGU 2571 ACGGUCCG CUGAUGAGGNNNNNNNNCCGAA AGGACAAU 6724 2646 CGGACCGUU AAGCGGGC 2572 GCCCGCUU CUGAUGAGGNNNNNNNNCCGAA ACGGUCCG 6725 2647 GGACCGUUA AGCGGGCC 1880 GGCCCGCU CUGAUGAGGNNNNNNNNCCGAA AACGGUCC 6036 2681 GACAGGCUA CUUGUCUA 2573 UAGACAAG CUGAUGAGGNNNNNNNNCCGAA AGCCUGUC 6726 2684 AGGCUACUU GUCUAUUG 2574 CAAUAGAC CUGAUGAGGNNNNNNNNCCGAA AGUAGCCU 6727 2687 CUACUUGUC UAUUGUCA 2575 UGACAAUA CUGAUGAGGNNNNNNNNCCGAA ACAAGUAG 6728 2689 ACUUGUCUA UUGUCAUG 2576 CAUGACAA CUGAUGAGGNNNNNNNNCCGAA AGACAAGU 6729 2691 UUGUCUAUU GUCAUGGA 2577 UCCAUGAC CUGAUGAGGNNNNNNNNCCGAA AUAGACAA 6730 2694 UCUAUUGUC AUGGAUCC 2578 GGAUCCAU CUGAUGAGGNNNNNNNNCCGAA ACAAUAGA 6731 2701 UCAUGGAUC CAGAUGAA 1886 UUCAUCUG CUGAUGAGGNNNNNNNNCCGAA AUCCAUGA 6042 2711 AGAUGAAUU GCCCUUGG 2579 CCAAGGGC CUGAUGAGGNNNNNNNNCCGAA AUUCAUCU 6732 2717 AUUGCCCUU GGAUGAGC 2580 GCUCAUCC CUGAUGAGGNNNNNNNNCCGAA AGGGCAAU 6733 2738 UGAACGCUU GCCUUAUG 2581 CAUAAGGC CUGAUGAGGNNNNNNNNCCGAA AGCGUUCA 6734 2743 GCUUGCCUU AUGAUGCC 2582 GGCAUCAU CUGAUGAGGNNNNNNNNCCGAA AGGCAAGC 6735 2744 CUUGCCUUA UGAUGCCA 2583 UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AAGGCAAG 6736 2765 GUGGGAAUU CCCCAGGG 2584 CCCUGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAC 6737 2766 UGGGAAUUC CCCAGGGA 2585 UCCCUGGG CUGAUGAGGNNNNNNNNCCGAA AAUUCCCA 6738 2787 CUGAAACUA GGAAAACC 2586 GGUUUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUUCAG 6739 2797 GAAAACCUC UUGGCCGC 2587 GCGGCCAA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUC 6740 2799 AAACCUCUU GGCCGCGG 2588 CCGCGGCC CUGAUGAGGNNNNNNNNCCGAA AGAGGUUU 6741 2813 CGGUGCCUU CGGCCAAG 2589 CUUGGCCG CUGAUGAGGNNNNNNNNCCGAA AGGCACCG 6742 2814 GGUGCCUUC GGCCAAGU 2590 ACUUGGCC CUGAUGAGGNNNNNNNNCCGAA AAGGCACC 6743 2826 CAAGUGAUU GAGGCAGA 2591 UCUGCCUC CUGAUGAGGNNNNNNNNCCGAA AUCACUUG 6744 2839 CAGACGCUU UUGGAAUU 2592 AAUUCCAA CUGAUGAGGNNNNNNNNCCGAA AGCGUCUG 6745 2840 AGACGCUUU UGGAAUUG 2593 CAAUUCCA CUGAUGAGGNNNNNNNNCCGAA AAGCGUCU 6746 2841 GACGCUUUU GGAAUUGA 2594 UCAAUUCC CUGAUGAGGNNNNNNNNCCGAA AAAGCGUC 6747 2847 UUUGGAAUU GACAAGAC 1903 GUCUUGUC CUGAUGAGGNNNNNNNNCCGAA AUUCCAAA 6059 2863 CAGCGACUU GCAAAACA 2595 UGUUUUGC CUGAUGAGGNNNNNNNNCCGAA AGUCGCUG 6748 2874 AAAACAGUA GCCGUCAA 2596 UUGACGGC CUGAUGAGGNNNNNNNNCCGAA ACUGUUUU 6749 2880 GUAGCCGUC AAGAUGUU 2597 AACAUCUU CUGAUGAGGNNNNNNNNCCGAA ACGGCUAC 6750 2888 CAAGAUGUU GAAAGAAG 2598 CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUCUUG 6751 2917 GCGAGCAUC GAGCCCUC 2599 GAGGGCUC CUGAUGAGGNNNNNNNNCCGAA AUGCUCGC 6752 2925 CGAGCCCUC AUGUCUGA 2600 UCAGACAU CUGAUGAGGNNNNNNNNCCGAA AGGGCUCG 6753 2930 CCUCAUGUC UGAACUCA 2601 UGAGUUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGAGG 6754 2937 UCUGAACUC AAGAUCCU 1912 AGGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCAGA 6068 2943 CUCAAGAUC CUCAUCCA 2602 UGGAUGAG CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG 6755 2946 AAGAUCCUC AUCCACAU 2603 AUGUGGAU CUGAUGAGGNNNNNNNNCCGAA AGGAUCUU 6756 2949 AUCCUCAUC CACAUUGG 2604 CCAAUGUG CUGAUGAGGNNNNNNNNCCGAA AUGAGGAU 6757 2955 AUCCACAUU GGUCACCA 2605 UGGUGACC CUGAUGAGGNNNNNNNNCCGAA AUGUGGAU 6758 2959 ACAUUGGUC ACCAUCUC 2606 GAGAUGGU CUGAUGAGGNNNNNNNNCCGAA ACCAAUGU 6759 2965 GUCACCAUC UCAAUGUG 1920 CACAUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGUGAC 6076 2967 CACCAUCUC AAUGUGGU 1921 ACCACAUU CUGAUGAGGNNNNNNNNCCGAA AGAUGGUG 6077 2982 GUGAACCUC CUAGGCGC 2607 GCGCCUAG CUGAUGAGGNNNNNNNNCCGAA AGGUUCAC 6760 2985 AACCUCCUA GGCGCCUG 2608 CAGGCGCC CUGAUGAGGNNNNNNNNCCGAA AGGAGGUU 6761 3013 GAGGGCCUC UCAUGGUG 2609 CACCAUGA CUGAUGAGGNNNNNNNNCCGAA AGGCCCUC 6762 3015 GGGCCUCUC AUGGUGAU 2610 AUCACCAU CUGAUGAGGNNNNNNNNCCGAA AGAGGCCC 6763 3024 AUGGUGAUU GUGGAAUU 1928 AAUUCCAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU 6084 3032 UGUGGAAUU CUGCAAGU 2611 ACUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCCACA 6764 3033 GUGGAAUUC UGCAAGUU 2612 AACUUGCA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAC 6765 3041 CUGCAAGUU UGGAAACC 2613 GGUUUCCA CUGAUGAGGNNNNNNNNCCGAA ACUUGCAG 6766 3042 UGCAAGUUU GGAAACCU 2614 AGGUUUCC CUGAUGAGGNNNNNNNNCCGAA AACUUGCA 6767 3051 GGAAACCUA UCAACUUA 2615 UAAGUUGA CUGAUGAGGNNNNNNNNCCGAA AGGUUUCC 6768 3053 AAACCUAUC AACUUACU 2616 AGUAAGUU CUGAUGAGGNNNNNNNNCCGAA AUAGGUUU 6769 3058 UAUCAACUU ACUUACGG 2617 CCGUAAGU CUGAUGAGGNNNNNNNNCCGAA AGUUGAUA 6770 3059 AUCAACUUA CUUACGGG 2618 CCCGUAAG CUGAUGAGGNNNNNNNNCCGAA AAGUUGAU 6771 3062 AACUUACUU ACGGGGCA 2619 UGCCCCGU CUGAUGAGGNNNNNNNNCCGAA AGUAAGUU 6772 3063 ACUUACUUA CGGGGCAA 2620 UUGCCCCG CUGAUGAGGNNNNNNNNCCGAA AAGUAAGU 6773 3083 AAAUGAAUU UGUUCCCU 2621 AGGGAACA CUGAUGAGGNNNNNNNNCCGAA AUUCAUUU 6774 3084 AAUGAAUUU GUUCCCUA 2622 UAGGGAAC CUGAUGAGGNNNNNNNNCCGAA AAUUCAUU 6775 3087 GAAUUUGUU CCCUAUAA 2623 UUAUAGGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUUC 6776 3088 AAUUUGUUC CCUAUAAG 2624 CUUAUAGG CUGAUGAGGNNNNNNNNCCGAA AACAAAUU 6777 3092 UGUUCCCUA UAAGAGCA 2625 UGCUCUUA CUGAUGAGGNNNNNNNNCCGAA AGGGAACA 6778 3094 UUCCCUAUA AGAGCAAA 2626 UUUGCUCU CUGAUGAGGNNNNNNNNCCGAA AUAGGGAA 6779 3113 GGCACGCUU CCGCCAGG 2627 CCUGGCGG CUGAUGAGGNNNNNNNNCCGAA AGCGUGCC 6780 3114 GCACGCUUC CGCCAGGG 2628 CCCUGGCG CUGAUGAGGNNNNNNNNCCGAA AAGCGUGC 6781 3131 CAAGGACUA CGUUGGGG 2629 CCCCAACG CUGAUGAGGNNNNNNNNCCGAA AGUCCUUG 6782 3135 GACUACGUU GGGGAGCU 2630 AGCUCCCC CUGAUGAGGNNNNNNNNCCGAA ACGUAGUC 6783 3144 GGGGAGCUC UCCGUGGA 2631 UCCACGGA CUGAUGAGGNNNNNNNNCCGAA AGCUCCCC 6784 3146 GGAGCUCUC CGUGGAUC 2632 GAUCCACG CUGAUGAGGNNNNNNNNCCGAA AGAGCUCC 6785 3154 CCGUGGAUC UGAAAAGA 2633 UCUUUUCA CUGAUGAGGNNNNNNNNCCGAA AUCCACGG 6786 3167 AAGACGCUU GGACAGCA 2634 UGCUGUCC CUGAUGAGGNNNNNNNNCCGAA AGCGUCUU 6787 3177 GACAGCAUC ACCAGCAG 2635 CUGCUGGU CUGAUGAGGNNNNNNNNCCGAA AUGCUGUC 6788 3194 CCAGAGCUC UGCCAGCU 2636 AGCUGGCA CUGAUGAGGNNNNNNNNCCGAA AGCUCUGG 6789 3203 UGCCAGCUC AGGCUUUG 2637 CAAAGCCU CUGAUGAGGNNNNNNNNCCGAA AGCUGGCA 6790 3209 CUCAGGCUU UGUUGAGG 2638 CCUCAACA CUGAUGAGGNNNNNNNNCCGAA AGCCUGAG 6791 3210 UCAGGCUUU GUUGAGGA 2639 UCCUCAAC CUGAUGAGGNNNNNNNNCCGAA AAGCCUGA 6792 3213 GGCUUUGUU GAGGAGAA 2640 UUCUCCUC CUGAUGAGGNNNNNNNNCCGAA ACAAAGCC 6793 3224 GGAGAAAUC GCUCAGUG 2641 CACUGAGC CUGAUGAGGNNNNNNNNCCGAA AUUUCUCC 6794 3228 AAAUCGCUC AGUGAUGU 2642 ACAUCACU CUGAUGAGGNNNNNNNNCCGAA AGCGAUUU 6795 3237 AGUGAUGUA GAGGAAGA 2643 UCUUCCUC CUGAUGAGGNNNNNNNNCCGAA ACAUCACU 4658 3253 AAGAAGCUU CUGAAGAA 2644 UUCUUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUUCUU 6796 3254 AGAAGCUUC UGAAGAAC 2645 GUUCUUCA CUGAUGAGGNNNNNNNNCCGAA AAGCUUCU 6797 3266 AGAACUGUA CAAGGACU 2646 AGUCCUUG CUGAUGAGGNNNNNNNNCCGAA ACAGUUCU 6798 3275 CAAGGACUU CCUGACCU 2647 AGGUCAGG CUGAUGAGGNNNNNNNNCCGAA AGUCCUUG 6799 3276 AAGGACUUC CUGACCUU 1962 AAGGUCAG CUGAUGAGGNNNNNNNNCCGAA AAGUCCUU 6118 3284 CCUGACCUU GGAGCAUC 1963 GAUGCUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCAGG 6119 3292 UGGAGGAUC UCAUCUGU 1964 ACAGAUGA CUGAUGAGGNNNNNNNNCCGAA AUGCUCCA 6120 3294 GAGCAUCUC AUCUGUUA 1965 UAACAGAU CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC 6121 3297 CAUCUCAUC UGUUACAG 1966 CUGUAACA CUGAUGAGGNNNNNNNNCCGAA AUGAGAUG 6122 3301 UCAUCUGUU ACAGCUUC 1967 GAAGCUGU CUGAUGAGGNNNNNNNNCCGAA ACAGAUGA 6123 3302 CAUCUGUUA CAGCUUCC 1968 GGAAGCUG CUGAUGAGGNNNNNNNNCCGAA AACAGAUG 6124 3308 UUACAGCUU CCAAGUGG 1969 CCACUUGG CUGAUGAGGNNNNNNNNCCGAA AGCUGUAA 6125 3309 UACAGCUUC CAAGUGGC 1970 GCCACCUG CUGAUGAGGNNNNNNNNCCGAA AAGCUGUA 6126 3319 AAGUGGCUA AGGGCAUG 1971 CAUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGCCACUU 6127 3332 CAUGGAGUU CUUGGCAU 1972 AUGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG 6128 3333 AUGGAGUUC UUGGCAUC 1973 GAUGCCAA CUGAUGAGGNNNNNNNNCCGAA AACUCCAU 6129 3335 GGAGUUCUU GGCAUCAA 2648 UUGAUGCC CUGAUGAGGNNNNNNNNCCGAA AGAACUCC 6800 3341 CUUGGCAUC AAGGAAGU 2649 ACUUCCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCAAG 6801 3352 GGAAGUGUA UCCACAGG 2650 CCUGUGGA CUGAUGAGGNNNNNNNNCCGAA ACACUUCC 6802 3354 AAGUGUAUC CACAGGGA 1977 UCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUACACUU 6133 3381 CGAAACAUU CUCCUAUC 2651 GAUAGGAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUCG 6803 3382 GAAACAUUC UCCUAUCG 2652 CGAUAGGA CUGAUGAGGNNNNNNNNCCGAA AAUGUUUC 6804 3384 AACAUUCUC CUAUCGGA 2653 UCCGAUAG CUGAUGAGGNNNNNNNNCCGAA AGAAUGUU 6805 3387 AUUCUCCUA UCGGAGAA 2654 UUCUCCGA CUGAUGAGGNNNNNNNNCCGAA AGGAGAAU 6806 3389 UCUCCUAUC GGAGAAGA 2655 UCUUCUCC CUGAUGAGGNNNNNNNNCCGAA AUAGGAGA 6807 3405 AAUGUGGUU AAGAUCUG 2656 CAGAUCUU CUGAUGAGGNNNNNNNNCCGAA ACCACAUU 6808 3406 AUGUGGUUA AGAUCUGU 2657 ACAGAUCU CUGAUGAGGNNNNNNNNCCGAA AACCACAU 6809 3411 GUUAAGAUC UGUGACUU 2658 AAGUCACA CUGAUGAGGNNNNNNNNCCGAA AUCUUAAC 6810 3419 CUGUGACUU CGGCUUGG 2659 CCAAGCCG CUGAUGAGGNNNNNNNNCCGAA AGUCACAG 6811 3420 UGUGACUUC GGCUUGGC 2660 GCCAAGCC CUGAUGAGGNNNNNNNNCCGAA AAGUCACA 6144 3425 CUUCGGCUU GGCCCGGG 2661 CCCGGGCC CUGAUGAGGNNNNNNNNCCGAA AGCCGAAG 6812 3438 CGGGACAUU UAUAAAGA 2662 UCUUUAUA CUGAUGAGGNNNNNNNNCCGAA AUGUCCCG 6813 3439 GGGACAUUU AUAAAGAC 2663 GUCUUUAU CUGAUGAGGNNNNNNNNCCGAA AAUGUCCC 6814 3440 GGACAUUUA UAAAGACC 2664 GGUCUUUA CUGAUGAGGNNNNNNNNCCGAA AAAUGUCC 6815 3442 ACAUUUAUA AAGACCCG 2665 CGGGUCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAUGU 6816 3454 ACCCGGAUU AUGUCAGA 2666 UCUGACAU CUGAUGAGGNNNNNNNNCCGAA AUCCGGGU 6817 3455 CCCGGAUUA UGUCAGAA 2667 UUCUGACA CUGAUGAGGNNNNNNNNCCGAA AAUCCGGG 6818 3459 GAUUAUGUC AGAAAAGG 1998 CCUUUUCU CUGAUGAGGNNNNNNNNCCGAA ACAUAAUC 6154 3480 GCCCGACUC CCUUUGAA 2668 UUCAAAGG CUGAUGAGGNNNNNNNNCCGAA AGUCGGGC 6819 3484 GACUCCCUU UGAAGUGG 2669 CCACUUCA CUGAUGAGGNNNNNNNNCCGAA AGGGAGUC 6820 3485 ACUCCCUUU GAAGUGGA 2670 UCCACUUC CUGAUGAGGNNNNNNNNCCGAA AAGGGAGU 6821 3510 GAAACCAUU UUUGACAG 2671 CUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUGGUUUC 6822 3511 AAACCAUUU UUGACAGA 2672 UCUGUCAA CUGAUGAGGNNNNNNNNCCGAA AAUGGUUU 6823 3512 AACCAUUUU UGACAGAG 2673 CUCUGUCA CUGAUGAGGNNNNNNNNCCGAA AAAUGGUU 6824 3513 ACCAUUUUU GACAGAGU 2674 ACUCUGUC CUGAUGAGGNNNNNNNNCCGAA AAAAUGGU 6825 3522 GACAGAGUA UACACAAU 2675 AUUGUGUA CUGAUGAGGNNNNNNNNCCGAA ACUCUGUC 6826 3524 CAGAGUAUA CACAAUUC 2676 GAAUUGUG CUGAUGAGGNNNNNNNNCCGAA AUACUCUG 6827 3531 UACACAAUU CAGAGCGA 2677 UCGCUCUG CUGAUGAGGNNNNNNNNCCGAA AUUGUGUA 6828 3532 ACACAAUUC AGAGCGAU 2678 AUCGCUCU CUGAUGAGGNNNNNNNNCCGAA AAUUGUGU 6829 3548 UGUGUGGUC UUUCGGUG 2679 CACCGAAA CUGAUGAGGNNNNNNNNCCGAA ACCACACA 6830 3550 UGUGGUCUU UGGCUGUG 2680 CACACCGA CUGAUGAGGNNNNNNNNCCGAA AGACCACA 6831 3551 GUGGUCUUU CGGUGUGU 2681 ACACACCG CUGAUGAGGNNNNNNNNCCGAA AAGACCAC 6832 3552 UGGUCUUUC GGUGUGUU 2682 AACACACC CUGAUGAGGNNNNNNNNCCGAA AAAGACCA 6833 3560 CGGUGUGUU GCUCUGGG 2683 CCCAGAGC CUGAUGAGGNNNNNNNNCCGAA ACACACCG 6834 3564 GUGUUGCUC UGGGAAAU 2684 AUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AGCAACAC 6835 3573 UGGGAAAUA UUUUCCUU 2017 AAGGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA 6173 3575 GGAAAUAUU UUCCUUAG 2018 CUAAGGAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUCC 6174 3576 GAAAUAUUU UCCUUAGG 2019 CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAUAUUUC 6175 3577 AAAUAUUUU CCUUAGGU 2020 ACCUAAGG CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU 6176 3578 AAUAUUUUC CUUAGGUG 2021 CACCUAAG CUGAUGAGGNNNNNNNNCCGAA AAAAUAUU 6177 3581 AUUUUCCUU AGGUGCCU 2685 AGGCACCU CUGAUGAGGNNNNNNNNCCGAA AGGAAAAU 6836 3582 UUUUCCUUA GGUGCCUC 2686 GAGGCACC CUGAUGAGGNNNNNNNNCCGAA AAGGAAAA 6837 3590 AGGUGCCUC CCCAUACC 2687 GGUAUGGG CUGAUGAGGNNNNNNNNCCGAA AGGCACCU 6838 3596 CUCCCCAUA CCCUGGGG 2688 CCCCAGGG CUGAUGAGGNNNNNNNNCCGAA AUGGGGAG 6839 3606 CCUGGGGUC AAGAUUGA 2689 UCAAUCUU CUGAUGAGGNNNNNNNNCCGAA ACCCCAGG 6185 3612 GUCAAGAUU GAUGAAGA 2690 UCUUCAUC CUGAUGAGGNNNNNNNNCCGAA AUCUUGAC 6840 3623 UGAAGAAUU UUGUAGGA 2691 UCCUACAA CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA 6841 3624 GAAGAAUUU UGUAGGAG 2692 CUCCUACA CUGAUGAGGNNNNNNNNCCGAA AAUUCUUC 6842 3625 AAGAAUUUU GUAGGAGA 2693 UCUCCUAC CUGAUGAGGNNNNNNNNCCGAA AAAUUCUU 6843 3628 AAUUUUGUA GGAGAUUG 2694 CAAUCUCC CUGAUGAGGNNNNNNNNCCGAA ACAAAAUU 6844 3635 UAGGAGAUU GAAAGAAG 2695 CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUCUCCUA 6845 3649 AAGGAACUA GAAUGCGG 2696 CCGCAUUC CUGAUGAGGNNNNNNNNCCGAA AGUUCCUU 6846 3661 UGCGGGCUC CUGACUAC 2697 GUAGUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCCGCA 6847 3668 UCCUGACUA CACUACCC 2698 GGGUAGUG CUGAUGAGGNNNNNNNNCCGAA AGUCAGGA 6848 3673 ACUACACUA CCCCAGAA 2699 UUCUGGGG CUGAUGAGGNNNNNNNNCCGAA AGUGUAGU 6849 3686 AGAAAUGUA CCAGACCA 2041 UGGUCUGG CUGAUGAGGNNNNNNNNCCGAA ACAUUUCU 6197 3734 GAGACCCUC GUUUUCAG 2700 CUGAAAAC CUGAUGAGGNNNNNNNNCCGAA AGGGUCUC 6850 3737 ACCCUCGUU UUCAGAGU 2701 ACUCUGAA CUGAUGAGGNNNNNNNNCCGAA ACGAGGGU 6851 3738 CCCUCGUUU UCAGAGUU 2702 AACUCUGA CUGAUGAGGNNNNNNNNCCGAA AACGAGGG 6852 3739 CCUCGUUUU CAGAGUUG 2703 CAACUCUG CUGAUGAGGNNNNNNNNCCGAA AAACGAGG 6853 3740 CUCGUUUUC AGAGUUGG 2704 CCAACUCU CUGAUGAGGNNNNNNNNCCGAA AAAACGAG 6854 3746 UUCAGAGUU GGUGGAGC 2705 GCUCCACC CUGAUGAGGNNNNNNNNCCGAA ACUCUGAA 6855 3757 UGGAGCAUU UGGGAAAC 2706 GUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AUGCUCCA 6856 3758 GGAGCAUUU GGGAAACC 2707 GGUUUCCC CUGAUGAGGNNNNNNNNCCGAA AAUGCUCC 6857 3768 GGAAACCUC CUGCAAGC 2708 GCUUGCAG CUGAUGAGGNNNNNNNNCCGAA AGGUUUCC 6858 3803 CAAAGACUA UAUUGUUC 2709 GAACAAUA CUGAUGAGGNNNNNNNNCCGAA AGUCUUUG 6859 3805 AAGACUAUA UUGUUCUU 2710 AAGAACAA CUGAUGAGGNNNNNNNNCCGAA AUAGUCUU 6860 3807 GACUAUAUU GUUCUUCC 2711 GGAAGAAC CUGAUGAGGNNNNNNNNCCGAA AUAUAGUC 6861 3810 UAUAUUGUU CUUCCAAU 2712 AUUGGAAG CUGAUGAGGNNNNNNNNCCGAA ACAAUAUA 6862 3811 AUAUUGUUC UUCCAAUG 2713 CAUUGGAA CUGAUGAGGNNNNNNNNCCGAA AACAAUAU 6863 3813 AUUGUUCUU CCAAUGUC 2714 GACAUUGG CUGAUGAGGNNNNNNNNCCGAA AGAACAAU 6864 3814 UUGUUCUUC CAAUGUCA 2715 UGACAUUG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA 6865 3821 UCCAAUGUC AGAGACAC 2716 GUGUCUCU CUGAUGAGGNNNNNNNNCCGAA ACAUUGGA 6866 3847 AAGAGGAUU CUGGACUC 2065 GAGUCCAG CUGAUGAGGNNNNNNNNCCGAA AUCCUCUU 6221 3848 AGAGGAUUC UGGACUCU 2066 AGAGUCCA CUGAUGAGGNNNNNNNNCCGAA AAUCCUCU 6222 3855 UCUGGACUC UCCCUGCC 2717 GGCAGGGA CUGAUGAGGNNNNNNNNCCGAA AGUCCAGA 6867 3857 UGGACUCUC CCUGCCUA 2718 UAGGCAGG CUGAUGAGGNNNNNNNNCCGAA AGAGUCCA 6868 3865 CCCUGCCUA CCUCACCU 2719 AGGUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGCAGGG 6869 3869 GCCUACCUC ACCUGUUU 2071 AAACAGGU CUGAUGAGGNNNNNNNNCCGAA AGGUAGGC 6227 3876 UCACCUGUU UCCUGUAU 2072 AUACAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGGUGA 6228 3877 CACCUGUUU CCUGUAUG 2073 CAUACAGG CUGAUGAGGNNNNNNNNCCGAA AACAGGUG 6229 3878 ACCUGUUUC CUGUAUGG 2074 CCAUACAG CUGAUGAGGNNNNNNNNCCGAA AAACAGGU 6230 3883 UUUCCUGUA UGGAGGAA 2720 UUCCUCCA CUGAUGAGGNNNNNNNNCCGAA ACAGGAAA 6870 3914 CCCCAAAUU CCAUUAUG 2077 CAUAAUGG CUGAUGAGGNNNNNNNNCCGAA AUUUGGGG 6233 3915 CCCAAAUUC CAUUAUGA 2078 UCAUAAUG CUGAUGAGGNNNNNNNNCCGAA AAUUUGGG 6234 3919 AAUUCCAUU AUGACAAC 2079 GUUGUCAU CUGAUGAGGNNNNNNNNCCGAA AUGGAAUU 6235 3920 AUUCCAUUA UGACAACA 2080 UGUUGUCA CUGAUGAGGNNNNNNNNCCGAA AAUGGAAU 6236 3939 GCAGGAAUC AGUCAUUA 2721 UAAUGACU CUGAUGAGGNNNNNNNNCCGAA AUUCCUGC 6871 3943 GAAUCAGUC AUUAUCUC 2722 GAGAUAAU CUGAUGAGGNNNNNNNNCCGAA ACUGAUUC 6872 3946 UCAGUCAUU AUCUCCAG 2723 CUGGAGAU CUGAUGAGGNNNNNNNNCCGAA AUGACUGA 6873 3947 CAGUCAUUA UCUCCAGA 2724 UCUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUGACUG 6874 3949 GUCAUUAUC UCCAGAAC 2725 GUUCUGGA CUGAUGAGGNNNNNNNNCCGAA AUAAUGAC 6875 3951 CAUUAUCUC CAGAACAG 2726 CUGUUCUG CUGAUGAGGNNNNNNNNCCGAA AGAUAAUG 6876 3961 AGAACAGUA AGCGAAAG 2085 CUUUCGCU CUGAUGAGGNNNNNNNNCCGAA ACUGUUCU 6241 3987 GUGAGUGUA AAAACAUU 2086 AAUGUUUU CUGAUGAGGNNNNNNNNCCGAA ACACUCAC 6242 3995 AAAAACAUU UGAAGAUA 2087 UAUCUUCA CUGAUGAGGNNNNNNNNCCGAA AUGUUUUU 6243 3996 AAAACAUUU GAAGAUAU 2088 AUAUCUUC CUGAUGAGGNNNNNNNNCCGAA AAUGUUUU 6244 4003 UUGAAGAUA UCCCAUUG 2727 CAAUGGGA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAA 6877 4005 GAAGAUAUC CCAUUGGA 2728 UCCAAUGG CUGAUGAGGNNNNNNNNCCGAA AUAUCUUC 6878 4010 UAUCCCAUU GGAGGAAC 2729 GUUCCUCC CUGAUGAGGNNNNNNNNCCGAA AUGGGAUA 6879 4026 CCAGAAGUA AAAGUGAU 2730 AUCACUUU CUGAUGAGGNNNNNNNNCCGAA ACUUCUGG 6880 4035 AAAGUGAUC CCAGAUGA 2731 UCAUCUGG CUGAUGAGGNNNNNNNNCCGAA AUCACUUU 6881 4068 GGGAUGGUC CUUGCAUC 2732 GAUGCAAG CUGAUGAGGNNNNNNNNCCGAA ACCAUCCC 6882 4071 AUGGUCCUU GCAUCAGA 2733 UCUGAUGC CUGAUGAGGNNNNNNNNCCGAA AGGACCAU 6883 4076 CCUUGCAUC AGAAGAGC 2734 GCUCUUCU CUGAUGAGGNNNNNNNNCCGAA AUGCAAGG 6884 4093 UGAAAACUC UGGAAGAC 2735 GUCUUCCA CUGAUGAGGNNNNNNNNCCGAA AGUUUUCA 6257 4112 GAACAAAUU AUCUCCAU 2736 AUGGAGAU CUGAUGAGGNNNNNNNNCCGAA AUUUGUUC 6885 4113 AACAAAUUA UCUCCAUC 2737 GAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUUUGUU 6886 4115 CAAAUUAUC UCCAUCUU 2105 AAGAUGGA CUGAUGAGGNNNNNNNNCCGAA AUAAUUUG 6261 4117 AAUUAUCUC CAUCUUUU 2106 AAAAGAUG CUGAUGAGGNNNNNNNNCCGAA AGAUAAUU 6262 4121 AUCUCCAUC UUUUGGUG 2107 CACCAAAA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAU 6263 4123 CUCCAUCUU UUGGUGGA 2108 UCCACCAA CUGAUGAGGNNNNNNNNCCGAA AGAUGGAG 6264 4124 UCCAUCUUU UGGUGGAA 2109 UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AAGAUGGA 6265 4125 CCAUCUUUU GGUGGAAU 2110 AUUCCACC CUGAUGAGGNNNNNNNNCCGAA AAAGAUGG 6266 4144 UGCCCAGUA AAAGCAGG 2738 CCUGCUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGGCA 6887 4157 CAGGGAGUC UGUGGCCU 2739 AGGCCACA CUGAUGAGGNNNNNNNNCCGAA ACUCCCUG 6888 4166 UGUGGCCUC GGAAGGCU 2740 AGCCUUCC CUGAUGAGGNNNNNNNNCCGAA AGGCCACA 6889 4175 GGAAGGCUC CAACCAGA 2741 UCUGGCUG CUGAUGAGGNNNNNNNNCCGAA AGCCUUCC 6890 4193 CAGUGGCUA CCAGUCUG 2742 CAGACUCG CUGAUGAGGNNNNNNNNCCGAA AGCCACUG 6891 4199 CUACCAGUC UGGGUAUC 2743 GAUACCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG 6892 4205 GUCUGGGUA UCACUCAG 2744 CUGAGUGA CUGAUGAGGNNNNNNNNCCGAA ACCCAGAC 6893 4207 CUGGGUAUC ACUCAGAU 2745 AUCUGAGU CUGAUGAGGNNNNNNNNCCGAA AUACCCAG 6894 4211 GUAUCACUC AGAUGACA 2746 UGUCAUCU CUGAUGAGGNNNNNNNNCCGAA AGUGAUAC 6895 4235 CACCGUGUA CUCCAGCG 2747 CGCUGGAG CUGAUGAGGNNNNNNNNCCGAA ACACGGUG 6896 4238 CGUGUACUC CAGCGACG 2748 CGUCGCUG CUGAUGAGGNNNNNNNNCCGAA AGUACACG 6897 4257 GCAGGACUU UUAAAGAU 2749 AUCUUUAA CUGAUGAGGNNNNNNNNCCGAA AGUCCUGC 6898 4258 CAGGACUUU UAAAGAUG 2750 CAUCUUUA CUGAUGAGGNNNNNNNNCCGAA AAGUCCUG 6899 4259 AGGACUUUU AAAGAUGG 2751 CCAUCUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUCCU 6900 4260 GGACUUUUA AAGAUGGU 2752 ACCAUCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGUCC 6901 4281 GCUGCAGUU CACGCUGA 2753 UCAGCGUG CUGAUGAGGNNNNNNNNCCGAA ACUGCAGC 6902 4282 CUGCAGUUC ACGCUGAC 2754 GUCAGCGU CUGAUGAGGNNNNNNNNCCGAA AACUGCAG 6903 4292 CGCUGACUC AGGGACCA 2755 UGGUCCCU CUGAUGAGGNNNNNNNNCCGAA AGUCAGCG 6904 4311 CUGCAGCUC ACCUCCUG 2756 CAGGAGGU CUGAUGAGGNNNNNNNNCCGAA AGCUGCAG 6905 4316 GCUCACCUC CUGUUUAA 2757 UUAAACAG CUGAUGAGGNNNNNNNNCCGAA AGGUGAGC 6906 4321 CCUCCUGUU UAAAUGGA 2758 UCCAUUUA CUGAUGAGGNNNNNNNNCCGAA ACAGGAGG 6907 4322 CUCCUGUUU AAAUGGAA 2759 UUCCAUUU CUGAUGAGGNNNNNNNNCCGAA AACAGGAG 6908 4323 UCCUGUUUA AAUGGAAG 2760 CUUCCAUU CUGAUGAGGNNNNNNNNCCGAA AAACAGGA 6909 4336 GAAGUGGUC CUGUCCCG 2761 CGGGACAG CUGAUGAGGNNNNNNNNCCGAA ACCACUUC 6910 4341 GGUCCUGUC CCGGCUCC 2762 GGAGCCGG CUGAUGAGGNNNNNNNNCCGAA ACAGGACC 6911 4348 UCCCGGCUC CGCCCCCA 2763 UGGGGGCG CUGAUGAGGNNNNNNNNCCGAA AGCCGGGA 6912 4360 CCCCAACUC CUGGAAAU 2764 AUUUCCAG CUGAUGAGGNNNNNNNNCCGAA AGUUGGGG 6913 4369 CUGGAAAUC ACGAGAGA 2765 UCUCUCGU CUGAUGAGGNNNNNNNNCCGAA AUUUCCAG 6914 4387 GUGCUGCUU AGAUUUUC 2766 GAAAAUCU CUGAUGAGGNNNNNNNNCCGAA AGCAGCAC 6915 4388 UGCUGCUUA GAUUUUCA 2767 UGAAAAUC CUGAUGAGGNNNNNNNNCCGAA AAGCAGCA 6916 4392 GCUUAGAUU UUCAAGUG 2768 CACUUGAA CUGAUGAGGNNNNNNNNCCGAA AUCUAAGC 6917 4393 CUUAGAUUU UCAAGUGU 2769 ACACUUGA CUGAUGAGGNNNNNNNNCCGAA AAUCUAAG 6918 4394 UUAGAUUUU CAAGUGUU 2770 AACACUUG CUGAUGAGGNNNNNNNNCCGAA AAAUCUAA 6919 4395 UAGAUUUUC AAGUGUUG 2771 CAACACUU CUGAUGAGGNNNNNNNNCCGAA AAAAUCUA 6920 4402 UCAAGUGUU GUUCUUUC 2772 GAAAGAAC CUGAUGAGGNNNNNNNNCCGAA ACACCUGA 6921 4405 AGUGUUGUU CUUUCCAC 2146 GUGGAAAG CUGAUGAGGNNNNNNNNCCGAA ACAACACU 6302 4406 GUGUUGUUC UUUCCACC 2147 GGUGGAAA CUGAUGAGGNNNNNNNNCCGAA AACAACAC 6303 4408 GUUGUUCUU UCCACCAC 2773 GUGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGAACAAC 6922 4409 UUGUUCUUU CCACCACC 2774 GGUGGUGG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA 6923 4410 UGUUCUUUC CACCACCC 2775 GGGUGGUG CUGAUGAGGNNNNNNNNCCGAA AAAGAACA 6924 4425 CCGGAAGUA GCCACAUU 2776 AAUGUGGC CUGAUGAGGNNNNNNNNCCGAA ACUUCCGG 6925 4433 AGCCACAUU UGAUUUUC 2777 GAAAAUCA CUGAUGAGGNNNNNNNNCCGAA AUGUGGCU 6926 4434 GCCACAUUU GAUUUUCA 2778 UGAAAAUC CUGAUGAGGNNNNNNNNCCGAA AAUGUGGC 6927 4438 CAUUUGAUU UUCAUUUU 2779 AAAAUGAA CUGAUGAGGNNNNNNNNCCGAA AUCAAAUG 6928 4439 AUUUGAUUU UCAUUUUU 2780 AAAAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUCAAAU 6929 4440 UUUGAUUUU CAUUUUUG 2781 CAAAAAUG CUGAUGAGGNNNNNNNNCCGAA AAAUCAAA 6930 4441 UUGAUUUUC AUUUUUGG 2782 CCAAAAAU CUGAUGAGGNNNNNNNNCCGAA AAAAUCAA 6931 4444 AUUUUCAUU UUUGGAGG 2783 CCUCCAAA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU 6932 4445 UUUUCAUUU UUGGAGGA 2784 UCCUCCAA CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA 6933 4446 UUUCAUUUU UGGAGGAG 2785 CUCCUCCA CUGAUGAGGNNNNNNNNCCGAA AAAUGAAA 6934 4447 UUCAUUUUU GGAGGAGG 2786 CCUCCUCC CUGAUGAGGNNNNNNNNCCGAA AAAAUGAA 6935 4461 AGGGACCUC AGACUGCA 2787 UGCAGUCU CUGAUGAGGNNNNNNNNCCGAA AGGUCCCU 6936 4477 AAGGAGCUU GUCCUCAG 2788 CUGAGGAC CUGAUGAGGNNNNNNNNCCGAA AGCUCCUU 6937 4480 GAGCUUGUC CUCAGGGC 2789 GCCCUGAG CUGAUGAGGNNNNNNNNCCGAA ACAAGCUC 6938 4483 CUUGUCCUC AGGGCAUU 2790 AAUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGGACAAG 6939 4491 CAGGGCAUU UCCAGAGA 2791 UCUCUGGA CUGAUGAGGNNNNNNNNCCGAA AUGCCCUG 6940 4492 AGGGCAUUU CCAGAGAA 2792 UUCUCUGG CUGAUGAGGNNNNNNNNCCGAA AAUGCCCU 6941 4493 GGGCAUUUC CAGAGAAG 2793 CUUCUCUG CUGAUGAGGNNNNNNNNCCGAA AAAUGCCC 6942 4525 GAAUGUGUU GACUCUAC 2794 GUAGAGUC CUGAUGAGGNNNNNNNNCCGAA ACACAUUC 6943 4530 UGUUGACUC UACUCUCU 2795 AGAGAGUA CUGAUGAGGNNNNNNNNCCGAA AGUCAACA 6944 4532 UUGACUCUA CUCUCUUU 2796 AAAGAGAG CUGAUGAGGNNNNNNNNCCGAA AGAGUCAA 6945 4535 ACUCUACUC UCUUUUCC 2797 GGAAAAGA CUGAUGAGGNNNNNNNNCCGAA AGUAGAGU 6946 4537 UCUACUCUC UUUUCCAU 2798 AUGGAAAA CUGAUGAGGNNNNNNNNCCGAA AGAGUAGA 6947 4539 UACUCUCUU UUCCAUUC 2799 GAAUGGAA CUGAUGAGGNNNNNNNNCCGAA AGAGAGUA 6948 4540 ACUCUCUUU UCCAUUCA 2800 UGAAUGGA CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU 6949 4541 CUCUCUUUU CCAUUCAU 2801 AUGAAUGG CUGAUGAGGNNNNNNNNCCGAA AAAGAGAG 6950 4542 UCUCUUUUC CAUUCAUU 2802 AAUGAAUG CUGAUGAGGNNNNNNNNCCGAA AAAAGAGA 6951 4546 UUUUCCAUU CAUUUAAA 2803 UUUAAAUG CUGAUGAGGNNNNNNNNCCGAA AUGGAAAA 6952 4547 UUUCCAUUC AUUUAAAA 2804 UUUUAAAU CUGAUGAGGNNNNNNNNCCGAA AAUGGAAA 6953 4550 CCAUUCAUU UAAAAGUC 2805 GACUUUUA CUGAUGAGGNNNNNNNNCCGAA AUGAAUGG 6954 4551 CAUUCAUUU AAAAGUCC 2806 GGACUUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAAUG 6955 4552 AUUCAUUUA AAAGUCCU 2807 AGGACUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGAAU 6956 4558 UUAAAAGUC CUAUAUAA 2808 UUAUAUAG CUGAUGAGGNNNNNNNNCCGAA ACUUUUAA 6957 4561 AAAGUCCUA UAUAAUGU 2809 ACAUUAUA CUGAUGAGGNNNNNNNNCCGAA AGGACUUU 6958 4563 AGUCCUAUA UAAUGUGC 2810 GCACAUUA CUGAUGAGGNNNNNNNNCCGAA AUAGGACU 6959 4565 UCCUAUAUA AUGUGCCC 2811 GGGCACAU CUGAUGAGGNNNNNNNNCCGAA AUAUAGGA 6960 4583 GCUGUGGUC UCACUACC 2812 GGUAGUGA CUGAUGAGGNNNNNNNNCCGAA ACCACAGC 6961 4585 UGUGGUCUC ACUACCAG 2813 CUGGUAGU CUGAUGAGGNNNNNNNNCCGAA AGACCACA 6962 4589 GUCUCACUA CCAGUUAA 2814 UUAACUGG CUGAUGAGGNNNNNNNNCCGAA AGUGAGAC 6963 4595 CUACCAGUU AAAGCAAA 2815 UUUGCUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG 6964 4596 UACCAGUUA AAGCAAAA 2816 UUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AACUGGUA 6965 4609 AAAAGACUU UCAAACAC 2817 GUGUUUGA CUGAUGAGGNNNNNNNNCCGAA AGUCUUUU 6966 4610 AAAGACUUU CAAACACG 2818 CGUGUUUG CUGAUGAGGNNNNNNNNCCGAA AAGUCUUU 6967 4611 AAGACUUUC AAACACGU 2819 ACGUGUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUCUU 6968 4625 CGUGGACUC UGUCCUCC 2820 GGAGGACA CUGAUGAGGNNNNNNNNCCGAA AGUCCACG 6969 4629 GACUCUGUC CUCCAAGA 2821 UCUUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGAGUC 6970 4632 UCUGUCCUC CAAGAAGU 2822 ACUUCUUG CUGAUGAGGNNNNNNNNCCGAA AGGACAGA 6971 4654 CGGCACCUC UGUGAAAC 2823 GUUUCACA CUGAUGAGGNNNNNNNNCCGAA AGGUGCCG 6972 4668 AACUGGAUC GAAUGGGC 2824 GCCCAUUC CUGAUGAGGNNNNNNNNCCGAA AUCCAGUU 6973 4683 GCAAUGCUU UGUGUGUU 2825 AACACACA CUGAUGAGGNNNNNNNNCCGAA AGCAUUGC 6974 4684 CAAUGCUUU GUGUGUUG 2826 CAACACAC CUGAUGAGGNNNNNNNNCCGAA AAGCAUUG 6975 4691 UUGUGUGUU GAGGAUGG 2827 CCAUCCUC CUGAUGAGGNNNNNNNNCCGAA ACACACAA 6976 4709 UGAGAUGUC CCAGGGCC 2828 GGCCCUGG CUGAUGAGGNNNNNNNNCCGAA ACAUCUCA 6977 4722 GGCCGAGUC UGUCUACC 2829 GGUAGACA CUGAUGAGGNNNNNNNNCCGAA ACUCGGCC 6978 4726 GAGUCUGUC UACCUUGG 2830 CCAAGGUA CUGAUGAGGNNNNNNNNCCGAA ACAGACUC 6979 4728 GUCUGUCUA CCUUGGAG 2831 CUCCAAGG CUGAUGAGGNNNNNNNNCCGAA AGACAGAC 6980 4732 GUCUACCUU GGAGGCUU 2832 AAGCCUCC CUGAUGAGGNNNNNNNNCCGAA AGGUAGAC 6981 4740 UGGAGGCUU UGUGGAGG 2833 CCUCCACA CUGAUGAGGNNNNNNNNCCGAA AGCCUCCA 6982 4741 GGAGGCUUU GUGGAGGA 2834 UCCUCCAC CUGAUGAGGNNNNNNNNCCGAA AAGCCUCC 6983 4758 UGCGGGCUA UGAGCCAA 2835 UUGGCUCA CUGAUGAGGNNNNNNNNCCGAA AGCCCGCA 6984 4771 CCAAGUGUU AAGUGUGG 2836 CCACACUU CUGAUGAGGNNNNNNNNCCGAA ACACUUGG 6985 4772 CAAGUGUUA AGUGUGGG 2837 CCCACACU CUGAUGAGGNNNNNNNNCCGAA AACACUUG 6986 4811 GCGCAAGUC GCUCGGAG 2838 CUCCGAGC CUGAUGAGGNNNNNNNNCCGAA ACUUGCGC 6987 4815 AAGUCGCUC GGAGAGCG 2839 CGCUCUCC CUGAUGAGGNNNNNNNNCCGAA AGCGACUU 6988 4826 AGAGCGGUU GGAGCCUG 2840 CAGGCUCC CUGAUGAGGNNNNNNNNCCGAA ACCGCUCU 6989 4844 AGAUGCAUU GUGCUGGC 2841 GCCAGCAC CUGAUGAGGNNNNNNNNCCGAA AUGCAUCU 6990 4854 UGCUGGCUC UGGUGGAG 2842 CUCCACCA CUGAUGAGGNNNNNNNNCCGAA AGCCAGCA 6991 4870 GGUGGGCUU GUGGCCUG 2843 CAGGCCAC CUGAUGAGGNNNNNNNNCCGAA AGCCCACC 6992 4880 UGGCCUGUC AGGAAACG 2844 CGUUUCCU CUGAUGAGGNNNNNNNNCCGAA ACAGGCCA 6993 4908 GGCAGGGUU UGGUUUUG 2845 CAAAACCA CUGAUGAGGNNNNNNNNCCGAA ACCCUGCC 6994 4909 GCAGGGUUU GGUUUUGG 2846 CCAAAACC CUGAUGAGGNNNNNNNNCCGAA AACCCUGC 6995 4913 GGUUUGGUU UUGGAAGG 2847 CCUUCCAA CUGAUGAGGNNNNNNNNCCGAA ACCAAACC 6996 4914 GUUUGGUUU UGGAAGGU 2848 ACCUUCCA CUGAUGAGGNNNNNNNNCCGAA AACCAAAC 6997 4915 UUUGGUUUU GGAAGGUU 2849 AACCUUCC CUGAUGAGGNNNNNNNNCCGAA AAACCAAA 6998 4923 UGGAAGGUU UGCGUGCU 2850 AGCACGCA CUGAUGAGGNNNNNNNNCCGAA ACCUUCCA 6999 4924 GGAAGGUUU GCGUGCUC 2851 GAGCACGC CUGAUGAGGNNNNNNNNCCGAA AACCUUCC 7000 4932 UGCGUGCUC UUCACAGU 2852 ACUGUGAA CUGAUGAGGNNNNNNNNCCGAA AGCACGCA 7001 4934 CGUGCUCUU CACAGUCG 2853 CGACUGUG CUGAUGAGGNNNNNNNNCCGAA AGAGCACG 7002 4935 GUGCUCUUC ACAGUCGG 2854 CCGACUGU CUGAUGAGGNNNNNNNNCCGAA AAGAGCAC 7003 4941 UUCACAGUC GGGUUACA 2855 UGUAACCC CUGAUGAGGNNNNNNNNCCGAA ACUGUGAA 7004 4946 AGUCGGGUU ACAGGCGA 2856 UCGCCUGU CUGAUGAGGNNNNNNNNCCGAA ACCCGACU 7005 4947 GUCGGGUUA CAGGCGAG 2857 CUCGCCUG CUGAUGAGGNNNNNNNNCCGAA AACCCGAC 7006 4957 AGGCGAGUU CCCUGUGG 2858 CCACAGGG CUGAUGAGGNNNNNNNNCCGAA ACUCGCCU 7007 4958 GGCGAGUUC CCUGUGGC 2859 GCCACAGG CUGAUGAGGNNNNNNNNCCGAA AACUCGCC 7008 4969 UGUGGCGUU UCCUACUC 2860 GAGUAGGA CUGAUGAGGNNNNNNNNCCGAA ACGCCACA 7009 4970 GUGGCGUUU CCUACUCC 2861 GGAGUAGG CUGAUGAGGNNNNNNNNCCGAA AACGCCAC 7010 4971 UGGCGUUUC CUACUCCU 2862 AGGAGUAG CUGAUGAGGNNNNNNNNCCGAA AAACGCCA 7011 4974 CGUUUCCUA CUCCUAAU 2863 AUUAGGAG CUGAUGAGGNNNNNNNNCCGAA AGGAAACG 7012 4977 UUCCUACUC CUAAUGAG 2864 CUCAUUAG CUGAUGAGGNNNNNNNNCCGAA AGUAGGAA 7013 4980 CUACUCCUA AUGAGAGU 2865 ACUCUCAU CUGAUGAGGNNNNNNNNCCGAA AGGAGUAG 7014 4989 AUGAGAGUU CCUUCCGG 2866 CCGGAAGG CUGAUGAGGNNNNNNNNCCGAA ACUCUCAU 7015 4990 UGAGAGUUC CUUCCGGA 2867 UCCGGAAG CUGAUGAGGNNNNNNNNCCGAA AACUCUCA 7016 4993 GAGUUCCUU CCGGACUC 2868 GAGUCCGG CUGAUGAGGNNNNNNNNCCGAA AGGAACUC 7017 4994 AGUUCCUUC CGGACUCC 2869 AGAGUCCG CUGAUGAGGNNNNNNNNCCGAA AAGGAACU 7018 5001 UCCGGACUC UUACGUGU 2870 ACACGUAA CUGAUGAGGNNNNNNNNCCGAA AGUCCGGA 7019 5003 CGGACUCUU ACGUGUCU 2871 AGACACGU CUGAUGAGGNNNNNNNNCCGAA AGAGUCCG 7020 5004 GGACUCUUA CGUGUCUC 2872 GAGACACG CUGAUGAGGNNNNNNNNCCGAA AAGAGUCC 7021 5010 UUACGUGUC UCCUGGCC 2873 GGCCAGGA CUGAUGAGGNNNNNNNNCCGAA ACACGUAA 7022 5012 ACGUGUCUC CUGGCCUG 2874 CAGGCCAG CUGAUGAGGNNNNNNNNCCGAA AGACACGU 7023 5046 AUGCAGCUU GCUCCUUC 2875 GAAGGAGC CUGAUGAGGNNNNNNNNCCGAA AGCUGCAU 7024 5050 AGCUUGCUC CUUCCUCA 2876 UGAGGAAG CUGAUGAGGNNNNNNNNCCGAA AGCAAGCU 7025 5053 UUGCUCCUU CCUCAUCU 2877 AGAUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGAGCAA 7026 5054 UGCUCCUUC CUCAUCUC 2878 GAGAUGAG CUGAUGAGGNNNNNNNNCCGAA AAGGAGCA 7027 5057 UCCUUCCUC AUCUCUCA 2879 UGAGAGAU CUGAUGAGGNNNNNNNNCCGAA AGGAAGGA 7028 5060 UUCCUCAUC UCUCAGGC 2880 GCCUGAGA CUGAUGAGGNNNNNNNNCCGAA AUGAGGAA 7029 5062 CCUCAUCUC UCAGGCUG 2881 CAGCCUGA CUGAUGAGGNNNNNNNNCCGAA AGAUGAGG 7030 5064 UCAUCUCUC AGGCUGUG 2882 CACAGCCU CUGAUGAGGNNNNNNNNCCGAA AGAGAUGA 7031 5076 CUGUGCCUU AAUUCAGA 2883 UCUGAAUU CUGAUGAGGNNNNNNNNCCGAA AGGCACAG 7032 5077 UGUGCCUUA AUUCAGAA 2884 UUCUGAAU CUGAUGAGGNNNNNNNNCCGAA AAGGCACA 7033 5080 GCCUUAAUU CAGAACAC 2885 GUGUUCUG CUGAUGAGGNNNNNNNNCCGAA AUUAAGGC 7034 5081 CCUUAAUUC AGAACACC 2886 GGUGUUCU CUGAUGAGGNNNNNNNNCCGAA AAUUAAGG 7035 5105 AGGAACGUC GGCAGAGG 2887 CCUCUGCC CUGAUGAGGNNNNNNNNCCGAA ACGUUCCU 7036 5116 CAGAGGCUC CUGACGGG 2888 CCCGUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCUCUG 7037 5135 CGAAGAAUU GUGAGAAC 2889 GUUCUCAC CUGAUGAGGNNNNNNNNCCGAA AUUCUUCG 7038 5156 CAGAAACUC AGGGUUUC 2890 GAAACCCU CUGAUGAGGNNNNNNNNCCGAA AGUUUCUG 7039 5162 CUCAGGGUU UCUGCUGG 2891 CCAGCAGA CUGAUGAGGNNNNNNNNCCGAA ACCCUGAG 7040 5163 UCAGGGUUU CUGCUGGG 2892 CCCAGCAG CUGAUGAGGNNNNNNNNCCGAA AACCCUGA 7041 5164 CAGGGUUUC UGCUGGGU 2893 ACCCAGCA CUGAUGAGGNNNNNNNNCCGAA AAACCCUG 7042 5203 UGGCAGGUC UGAGGGUU 2894 AACCCUCA CUGAUGAGGNNNNNNNNCCGAA ACCUGCCA 7043 5211 CUGAGGGUU CUCUGUCA 2895 UGACAGAG CUGAUGAGGNNNNNNNNCCGAA ACCCUCAG 7044 5212 UGAGGGUUC UCUGUCAA 2896 UUGACAGA CUGAUGAGGNNNNNNNNCCGAA AACCCUCA 7045 5214 AGGGUUCUC UGUCAAGU 2897 ACUUGACA CUGAUGAGGNNNNNNNNCCGAA AGAACCCU 7046 5218 UUCUCUGUC AAGUGGCG 2898 CGCCACUU CUGAUGAGGNNNNNNNNCCGAA ACAGAGAA 7047 5229 GUGGCGGUA AAGGCUCA 2899 UGAGCCUU CUGAUGAGGNNNNNNNNCCGAA ACCGCCAC 7048 5236 UAAAGGCUC AGGCUGGU 2900 ACCAGCCU CUGAUGAGGNNNNNNNNCCGAA AGCCUUUA 7049 5247 GCUGGUGUU CUUCCUCU 2901 AGAGGAAG CUGAUGAGGNNNNNNNNCCGAA ACACCAGC 7050 5248 CUGGUGUUC UUCCUCUA 2902 UAGAGGAA CUGAUGAGGNNNNNNNNCCGAA AACACCAG 7051 5250 GGUGUUCUU CCUCUAUC 2903 GAUAGAGG CUGAUGAGGNNNNNNNNCCGAA AGAACACC 7052 5251 GUGUUCUUC CUCUAUCU 2904 AGAUAGAG CUGAUGAGGNNNNNNNNCCGAA AAGAACAC 7053 5254 UUCUUCCUC UAUCUCCA 2905 UGGAGAUA CUGAUGAGGNNNNNNNNCCGAA AGGAAGAA 7054 5256 CUUCCUCUA UCUGCACU 2906 AGUGGAGA CUGAUGAGGNNNNNNNNCCGAA AGAGGAAG 7055 5258 UCCUCUAUC UCCACUCC 2907 GGAGUGGA CUGAUGAGGNNNNNNNNCCGAA AUAGAGGA 7056 5260 CUCUAUCUC CACUCCUG 2908 CAGGAGUG CUGAUGAGGNNNNNNNNCCGAA AGAUAGAG 7057 5265 UCUCCACUC CUGUCAGG 2909 CCUGACAG CUGAUGAGGNNNNNNNNCCGAA AGUGGAGA 7058 5270 ACUCCUGUC AGGCCCCC 2910 GGGGGCCU CUGAUGAGGNNNNNNNNCCGAA ACAGGAGU 7059 5283 CCCCAAGUC CUCAGUAU 2911 AUACUGAG CUGAUGAGGNNNNNNNNCCGAA ACUUGGGG 7060 5286 CAAGUCCUC AGUAUUUU 2912 AAAAUACU CUGAUGAGGNNNNNNNNCCGAA AGGACUUG 7061 5290 UCCUCAGUA UUUUAGCU 2913 AGCUAAAA CUGAUGAGGNNNNNNNNCCGAA ACUGAGGA 7062 5292 CUCAGUAUU UUAGCUUU 2914 AAAGCUAA CUGAUGAGGNNNNNNNNCCGAA AUACUGAG 7063 5293 UCAGUAUUU UAGCUUUG 2915 CAAAGCUA CUGAUGAGGNNNNNNNNCCGAA AAUACUGA 7064 5294 CAGUAUUUU AGCUUUGU 2916 ACAAAGCU CUGAUGAGGNNNNNNNNCCGAA AAAUACUG 7065 5295 AGUAUUUUA GCUUUGUG 2917 CACAAAGC CUGAUGAGGNNNNNNNNCCGAA AAAAUACU 7066 5299 UUUUAGCUU UGUGGCUU 2918 AAGCCACA CUGAUGAGGNNNNNNNNCCGAA AGCUAAAA 7067 5300 UUUAGCUUU GUGGCUUC 2919 GAAGCCAC CUGAUGAGGNNNNNNNNCCGAA AAGCUAAA 7068 5307 UUGUGGCUU CCUGAUGG 2920 CCAUCAGG CUGAUGAGGNNNNNNNNCCGAA AGCCACAA 7069 5308 UGUGGCUUC CUGAUGGC 2921 GCCAUCAG CUGAUGAGGNNNNNNNNCCGAA AAGCCACA 7070 5325 AGAAAAAUC UUAAUUGG 2922 CCAAUUAA CUGAUGAGGNNNNNNNNCCGAA AUUUUUCU 7071 5327 AAAAAUCUU AAUUGGUU 2923 AACCAAUU CUGAUGAGGNNNNNNNNCCGAA AGAUUUUU 7072 5328 AAAAUCUUA AUUGGUUG 2924 CAACCAAU CUGAUGAGGNNNNNNNNCCGAA AAGAUUUU 7073 5331 AUCUUAAUU GGUUGGUU 2925 AACCAACC CUGAUGAGGNNNNNNNNCCGAA AUUAAGAU 7074 5335 UAAUUGGUU GGUUUGCU 2926 AGCAAACC CUGAUGAGGNNNNNNNNCCGAA ACCAAUUA 7075 5339 UGGUUGGUU UGCUCUCC 2927 GGAGAGCA CUGAUGAGGNNNNNNNNCCGAA ACCAACCA 7076 5340 GGUUGGUUU GCUCUCCA 2928 UGGAGAGC CUGAUGAGGNNNNNNNNCCGAA AACCAACC 7077 5344 GGUUUGCUC UCCAGAUA 2929 UAUCUGGA CUGAUGAGGNNNNNNNNCCGAA AGCAAACC 7078 5346 UUUGCUCUC CAGAUAAU 2930 AUUAUCUG CUGAUGAGGNNNNNNNNCCGAA AGAGCAAA 7079 5352 CUCCAGAUA AUCACUAG 2931 CUAGUGAU CUGAUGAGGNNNNNNNNCCGAA AUCUGGAG 7080 5355 CAGAUAAUC ACUAGCCA 2932 UGGCUAGU CUGAUGAGGNNNNNNNNCCGAA AUUAUCUG 7081 5359 UAAUCACUA GCCAGAUU 2933 AAUCUGGC CUGAUGAGGNNNNNNNNCCGAA AGUGAUUA 7082 5367 AGCCAGAUU UCGAAAUU 2934 AAUUUCGA CUGAUGAGGNNNNNNNNCCGAA AUCUGGCU 7083 5368 GCCAGAUUU CGAAAUUA 2935 UAAUUUCG CUGAUGAGGNNNNNNNNCCGAA AAUCUGGC 7084 5369 CCAGAUUUC GAAAUUAC 2936 GUAAUUUC CUGAUGAGGNNNNNNNNCCGAA AAAUCUGG 7085 5375 UUCGAAAUU ACUUUUUA 2937 UAAAAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUCGAA 7086 5376 UCGAAAUUA CUUUUUAG 2938 CUAAAAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUCGA 7087 5379 AAAUUACUU UUUAGCCG 2939 CGGCUAAA CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU 7088 5380 AAUUACUUU UUAGCCGA 2940 UCGGCUAA CUGAUGAGGNNNNNNNNCCGAA AAGUAAUU 7089 5381 AUUACUUUU UAGCCGAG 2941 CUCGGCUA CUGAUGAGGNNNNNNNNCCGAA AAAGUAAU 7090 5382 UUACUUUUU AGCCGAGG 2942 CCUCGGCU CUGAUGAGGNNNNNNNNCCGAA AAAAGUAA 7091 5383 UACUUUUUA GCCGAGGU 2943 ACCUCGGC CUGAUGAGGNNNNNNNNCCGAA AAAAAGUA 7092 5392 GCCGAGGUU AUGAUAAC 2944 GUUAUCAU CUGAUGAGGNNNNNNNNCCGAA ACCUCGGC 7093 5393 CCGAGGUUA UGAUAACA 2945 UGUUAUCA CUGAUGAGGNNNNNNNNCCGAA AACCUCGG 7094 5398 GUUAUGAUA ACAUCUAC 2946 GUAGAUGU CUGAUGAGGNNNNNNNNCCGAA AUCAUAAC 7095 5403 GAUAACAUC UACUGUAU 2947 AUACAGUA CUGAUGAGGNNNNNNNNCCGAA AUGUUAUC 7096 5405 UAACAUCUA CUGUAUCC 2948 GGAUACAG CUGAUGAGGNNNNNNNNCCGAA AGAUGUUA 7097 5410 UCUACUGUA UCCUUUAG 2949 CUAAAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGUAGA 7098 5412 UACUGUAUC CUUUAGAA 2950 UUCUAAAG CUGAUGAGGNNNNNNNNCCGAA AUACAGUA 7099 5415 UGUAUCCUU UAGAAUUU 2951 AAAUUCUA CUGAUGAGGNNNNNNNNCCGAA AGGAUACA 7100 5416 GUAUCCUUU AGAAUUUU 2952 AAAAUUCU CUGAUGAGGNNNNNNNNCCGAA AAGGAUAC 7101 5417 UAUCCUUUA GAAUUUUA 2953 UAAAAUUC CUGAUGAGGNNNNNNNNCCGAA AAAGGAUA 7102 5422 UUUAGAAUU UUAACCUA 2954 UAGGUUAA CUGAUGAGGNNNNNNNNCCGAA AUUCUAAA 7103 5423 UUAGAAUUU UAACCUAU 2955 AUAGGUUA CUGAUGAGGNNNNNNNNCCGAA AAUUCUAA 7104 5424 UAGAAUUUU AACCUAUA 2956 UAUAGGUU CUGAUGAGGNNNNNNNNCCGAA AAAUUCUA 7105 5425 AGAAUUUUA ACCUAUAA 2957 UUAUAGGU CUGAUGAGGcsCCGUUAGGCCGAA AAAAUUCU 7106 5430 UUUAACCUA UAAAACUA 2958 UAGUUUUA CUGAUGAGGNNNNNNNNCCGAA AGGUUAAA 7107 5432 UAACCUAUA AAACUAUG 2959 CAUAGUUU CUGAUGAGGNNNNNNNNCCGAA AUAGGUUA 7108 5438 AUAAAACUA UGUCUACU 2960 AGUAGACA CUGAUGAGGNNNNNNNNCCGAA AGUUUUAU 7109 5442 AACUAUGUC UACUGGUU 2961 AACCAGUA CUGAUGAGGNNNNNNNNCCGAA ACAUAGUU 7110 5444 CUAUGUCUA CUGGUUUC 2962 GAAACCAG CUGAUGAGGNNNNNNNNCCGAA AGACAUAG 7111 5450 CUACUGGUU UCUGCCUG 2963 CAGGCAGA CUGAUGAGGNNNNNNNNCCGAA ACCAGUAG 7112 5451 UACUGGUUU CUGCCUGU 2964 ACAGGCAG CUGAUGAGGNNNNNNNNCCGAA AACCAGUA 7113 5452 ACUGGUUUC UGCCUGUG 2965 CACAGGCA CUGAUGAGGNNNNNNNNCCGAA AAACCAGU 7114 Where “N” represents stem II region of a HH ribozyme (Hertel et al., 1992 Nucleic Acids Res. 20 3252). The length of stem II may be ≧2 base-pairs. Underlined region can be any N sequence of linker, as described herein.

TABLE VII Mouse flk-1 VEGF Receptor-Hairpin Ribozyme and Substrate Sequences Seq Seq ID ID Pos Substrate No HP Ribozyme Sequences No 74 GGGCCCA GAC UGUGUCCC 2966 GGGACACA AGAA GGGCCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7115 88 UCCCGCA GCC GGGAUAAC 2967 GUUAUCCC AGAA GCGGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7116 105 CCUGGCU GAC CCGAUUCC 2968 GGAAUCGG AGAA GCCAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7117 110 CUGACCC GAU UCCGCGGA 2969 UCCGCGGA AGAA GGUCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7118 125 GGACACC GCU GACAGCCG 2970 CGGCUGUC AGAA GUGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7119 132 GCUGACA GCC GCGGCUGG 2971 CCAGCCGC AGAA GUCAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7120 138 AGCCGCG GCU GGAGCCAG 2972 CUGGCUCC AGAA GCGGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7121 175 CUCCCCG GUC UUGCGCUG 2973 CAGCGCAA AGAA GGGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7122 199 CCAUACC GCC UCUGUGAC 2974 GUCACAGA AGAA GUAUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7123 309 GCUAGCU GUC GCUCUGUG 2975 CACAGAGC AGAA GCUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7124 342 CCGAGCC GCC UCUGUGGG 2976 CCCACAGA AGAA GCUCGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7125 434 CCCUUCA GAU UACUUGCA 2977 UGCAAGUA AGAA GAAGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7126 630 CUCCACU GUU UAUGUCUA 2978 UAGACAUA AGAA GUGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7127 655 GAUUACA GAU CACCAUUC 2979 GAAUGGUG AGAA GUAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7128 739 AUCCCCU GCC GAGGGUCG 2980 CGACCCUC AGAA GGGGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7129 807 UGUUCCG GAU GGAAACAG 2981 CUGUUUCC AGAA GGAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7130 920 CCUAUCA GUC UAUCAUGU 2982 ACAUGAUA AGAA GAUAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7131 1002 GCUAUCU GCC GGAGAAAA 2983 UUUUCUCC AGAA GAUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7132 1229 GUGGACG GAU GAUCAAGA 2984 UCUUGAUC AGAA GUCCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7133 1365 UUACCCA GCU CCUGAUAU 2985 AUAUCAGG AGAA GGGUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7134 1556 CACCCCA GAU CGGUGAGA 2986 UCUCACCG AGAA GGGGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7135 1629 AUGCACA GUC UACGCCAA 2987 UUGGCGUA AGAA GUGCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7136 1687 GAAGCCU GCU CCUACAGA 2988 UCUGUAGG AGAA GGCUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7137 1696 UCCUACA GAC CCGGCCAA 2989 UUGGCCGG AGAA GUAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7138 1796 AUGCCCU GAU UGAAGGAA 2990 UUCCUUCA AGAA GGGCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7139 1950 GCAACCU GCU GCCCAGCC 2991 GGCUGGGC AGAA GGUUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7140 1953 ACCUGCU GCC CAGCCAAC 2992 GUUGGCUG AGAA GCAGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7141 1985 UGUCCCU GUU GUGCACUG 2993 CAGUGCAC AGAA GGGACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7142 2055 AACAUCG GUC CACAUGGG 2994 CCCAUGUG AGAA GAUGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7143 2082 CACACCA GUU UGCAAGAA 2995 UUCUUGCA AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6343 2208 UUGCUCU GCU CAAGAUAA 2996 UUAUCUUG AGAA GAGCAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7144 2252 UCAAACA GCU CAUCAUCC 2997 GGAUGAUG AGAA GUUUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7145 2444 GGAACCU GAC UAUCCGCA 2998 UGCGGAUA AGAA GGUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7146 2639 UCCUACG GAC CGUUAAGC 2999 GCUUAACG AGAA GUAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7147 2703 GGAUCCA GAU GAAUUGCC 3000 GGCAAUUC AGAA GGAUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7148 2777 GGGACCG GCU GAAACUAG 3001 CUAGUUUC AGAA GGUCCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7149 2832 UGAGGCA GAC GCUUUUGG 3002 CCAAAAGC AGAA GCCUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7150 3199 UCUGCCA GCU CAGGCUUU 3003 AAAGCCUG AGAA GGCAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7151 3278 ACUUCCU GAC CUUGGAGC 2199 GCUCCAAG AGAA GGAAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6355 3304 UGUUACA GCU UCCAAGUG 2200 CACUUGGA AGAA GUAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6356 3421 GACUUCG GCU UGGCCCGG 3004 CCGGGCCA AGAA GAAGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7152 3450 AGACCCG GAU UAUGUCAG 3005 CUGACAUA AGAA GGGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7153 3475 GAUGCCC GAC UCCCUUUG 3006 CAAAGGGA AGAA GGCAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7154 3663 GGCUCCU GAC UACACUAC 3007 GUAGUGUA AGAA GGAGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7155 3689 UGUACCA GAC CAUGCUGG 2203 CCAGCAUG AGAA GGUACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6359 3703 CUGGACU GCU GGCAUGAG 3008 CUCAUGCC AGAA GUCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7156 3860 UCUCCCU GCC UACCUCAC 3009 GUGAGGUA AGAA GGGAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7157 3873 CUCACCU GUU UCCUGUAU 2206 AUACAGGA AGAA GGUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6362 4038 GAUCCCA GAU GACAGCCA 3010 UGGCUGUC AGAA GGGAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7158 4181 CCAACCA GAC CAGUGGCU 3011 AGCCACUG AGAA GGUUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7159 4196 GCUACCA GUC UGGGUAUC 3012 GAUACCCA AGAA GGUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7160 4212 UCACUCA GAU GACACAGA 3013 UCUGUGUC AGAA GAGUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 6367 4278 UGCUGCA GUU CACGCUGA 3014 UCAGCGUG AGAA GCAGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7161 4287 UCACGCU GAC UCAGGGAC 3015 GUCCCUGA AGAA GCGUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7162 4307 CACUGCA GCU CACCUCCU 3016 AGGAGGUG AGAA GCAGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7163 4318 ACCUCCU GUU UAAAUGGA 3017 UCCAUUUA AGAA GGAGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7164 4338 UGGUCCU GUC CCGGCUCC 3018 GGAGCCGG AGAA GGACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7165 4344 UGUCCCG GCU CCGCCCCC 3019 GGGGGCGG AGAA GGGACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7166 4349 CGGCUCC GCC CCCAACUC 3020 GAGUUGGG AGAA GAGCCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7167 4383 AGGUGCU GCU UAGAUUUU 3021 AAAAUCUA AGAA GCACCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7168 4462 GACCUCA GAC UGCAAGGA 3022 UCCUUGCA AGAA GAGGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7169 4574 GUGCCCU GCU GUGGUCUC 3023 GAGACCAC AGAA GGGCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7170 4626 GGACUCU GUC CUCCAAGA 3024 UCUUGGAG AGAA GAGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7171 4723 CGAGUCU GUC UACCUUGG 3025 CCAAGGUA AGAA GACUCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7172 4823 GAGAGCG GUU GGAGCCUG 3026 CAGGCUCC AGAA GCUCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7173 4836 GCCUGCA GAU GCAUUGUG 3027 CACAAUGC AGAA GCAGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7174 4896 AAAGGCG GCC GGCAGGGU 3028 ACCCUGCC AGAA GCCUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7175 4938 CUUCACA GUC GGGUUACA 3029 UGUAACCC AGAA GUGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7176 4996 CCUUCCG GAC UCUUACGU 3030 ACGUAAGA AGAA GGAAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7177 5042 UGAUGCA GCU UGCUCCUU 3031 AAGGAGCA AGAA GCAUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7178 5118 GGCUCCU GAC GGGGCCGA 3032 UCGGCCCC AGAA GGAGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7179 5165 GGUUUCU GCU GGGUGGAG 3033 CUCCACCC AGAA GAAACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7180 5310 GCUUCCU GAU GGCAGAAA 3034 UUUCUGCC AGAA GGAAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7181 5363 CUAGCCA GAU UUCGAAAU 3035 AUUUCGAA AGAA GGCUAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7182 5453 GGUUUCU GCC UGUGUGCU 3036 AGCACACA AGAA GAAACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 7183

TABLE VIII Mouse flt-1 VEGF Receptor-Hammerhead Ribozyme and Substrate Sequence Seq ID Seq ID Pos Substrate No HH Ribozyme Sequence No 17 GGCCGCGUC UUGCUCAC 3037 GUGAGCAA CUGAUGAGGNNNNNNNNCCGAA ACGCGGCC 7184 19 CCGCGUCUU GCUCACCA 3038 UGGUGAGC CUGAUGAGGNNNNNNNNCCGAA AGACGCGG 7185 23 GUCUUGCUC ACCAUGGU 3039 ACCAUGGU CUGAUGAGGNNNNNNNNCCGAA AGCAAGAC 7186 32 ACCAUGGUC AGCUGCUG 3040 CAGCAGCU CUGAUGAGGNNNNNNNNCCGAA ACCAUGGU 7187 53 ACCGCGGUC UUGCCUUA 3041 UAAGGCAA CUGAUGAGGNNNNNNNNCCGAA ACCGCGGU 7188 55 CGCGGUCUU GCCUUACG 3042 CGUAAGGC CUGAUGAGGNNNNNNNNCCGAA AGACCGCG 7189 60 UCUUGCCUU ACGCGCUG 3043 CAGCGCGU CUGAUGAGGNNNNNNNNCCGAA AGGCAAGA 7190 61 CUUGCCUUA CGCGCUGC 3044 GCAGCGCG CUGAUGAGGNNNNNNNNCCGAA AAGGCAAG 7191 71 GCGCUGCUC GGGUGUCU 3045 AGACACCC CUGAUGAGGNNNNNNNNCCGAA AGCAGCGC 7192 78 UCGGGUGUC UGCUUCUC 3046 GAGAAGCA CUGAUGAGGNNNNNNNNCCGAA ACACCCGA 7193 83 UGUCUGCUU CUCACAGG 25 CCUGUGAG CUGAUGAGGNNNNNNNNCCGAA AGCAGACA 4181 84 GUCUGCUUC UCACAGGA 26 UCCUGUGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGAC 4182 86 CUGCUUCUC ACAGGAUA 3047 UAUCCUGU CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG 7194 94 CACAGGAUA UGGCUCAG 3048 CUGAGCCA CUGAUGAGGNNNNNNNNCCGAA AUCCUGUG 7195 100 AUAUGGCUC AGGGUCGA 3049 UCGACCCU CUGAUGAGGNNNNNNNNCCGAA AGCCAUAU 7196 106 CUCAGGGUC GAAGUUAA 3050 UUAACUUC CUGAUGAGGNNNNNNNNCCGAA ACCCUGAG 7197 112 GUCGAAGUU AAAAGUGC 3051 GCACUUUU CUGAUGAGGNNNNNNNNCCGAA ACUUCGAC 7198 113 UCGAAGUUA AAAGUGCC 3052 GGCACUUU CUGAUGAGGNNNNNNNNCCGAA AACUUCGA 7199 132 AACUGAGUU UAAAAGGC 37 GCCUUUUA CUGAUGAGGNNNNNNNNCCGAA ACUCAGUU 4193 133 ACUGAGUUU AAAAGGCA 38 UGCCUUUU CUGAUGAGGNNNNNNNNCCGAA AACUCAGU 4194 134 CUGAGUUUA AAAGGCAC 39 GUGCCUUU CUGAUGAGGNNNNNNNNCCGAA AAACUCAG 4195 152 CAGCAUGUC AUGCAAGC 3053 GCUUGCAU CUGAUGAGGNNNNNNNNCCGAA ACAUGCUG 7200 171 GCCAGACUC UCUUUCUC 3054 GAGAAAGA CUGAUGAGGNNNNNNNNCCGAA AGUCUGGC 7201 173 CAGACUCUC UUUCUCAA 3055 UUGAGAAA CUGAUGAGGNNNNNNNNCCGAA AGAGUCUG 7202 175 GACUCUCUU UCUCAAGU 3056 ACUUGAGA CUGAUGAGGNNNNNNNNCCGAA AGAGAGUC 7203 176 ACUCUCUUU CUCAAGUG 3057 CACUUGAG CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU 7204 177 CUCUCUUUC UCAAGUGC 3058 GCACUUGA CUGAUGAGGNNNNNNNNCCGAA AAAGAGAG 7205 179 CUCUUUCUC AAGUGCAG 3059 CUGCACUU CUGAUGAGGNNNNNNNNCCGAA AGAAAGAG 7206 205 AGCCCACUC AUGGUCUC 3060 GAGACCAU CUGAUGAGGNNNNNNNNCCGAA AGUGGGCU 7207 211 CUCAUGGUC UCUGCCCA 3061 UGGGCAGA CUGAUGAGGNNNNNNNNCCGAA ACCAUGAG 7208 213 CAUGGUCUC UGCCCACG 3062 CGUGGGCA CUGAUGAGGNNNNNNNNCCGAA AGACCAUG 7209 254 CUGAGCAUC ACUCCCCC 3063 GGGGGAGU CUGAUGAGGNNNNNNNNCCGAA AUGCUCAG 7210 258 GCAUCACUC CCCCAUCG 3064 CGAUGGGG CUGAUGAGGNNNNNNNNCCGAA AGUGAUGC 7211 265 UCCCCCAUC GGCCUGUG 3065 CACAGGCC CUGAUGAGGNNNNNNNNCCGAA AUGGGGGA 7212 282 GGAGGGAUA ACAGGCAA 3066 UUGCCUGU CUGAUGAGGNNNNNNNNCCGAA AUCCCUCC 7213 292 CAGGCAAUU CUGCAGCA 3067 UGCUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUGCCUG 7214 293 AGGCAAUUC UGCAGCAC 3068 GUGCUGCA CUGAUGAGGNNNNNNNNCCGAA AAUUGCCU 7215 304 CAGCACCUU GACCUUGG 3069 CCAAGGUC CUGAUGAGGNNNNNNNNCCGAA AGGUGCUG 7216 310 CUUGACCUU GGACACGG 3070 CCGUGUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCAAG 7217 341 ACGGGCCUC UACACCUG 3071 CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGGCCCGU 7218 343 GGGCCUCUA CACCUGUA 3072 UACAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCC 7219 351 ACACCUGUA GAUACCUC 3073 GAGGUAUC CUGAUGAGGNNNNNNNNCCGAA ACAGGUGU 7220 355 CUGUAGAUA CCUCCCUA 3074 UAGGGAGG CUGAUGAGGNNNNNNNNCCGAA AUCUACAG 7221 359 AGAUACCUC CCUACAUC 3075 GAUGUAGG CUGAUGAGGNNNNNNNNCCGAA AGGUAUCU 7222 363 ACCUCCCUA CAUCUACU 3076 AGUAGAUG CUGAUGAGGNNNNNNNNCCGAA AGGGAGGU 7223 367 CCCUACAUC UACUUCGA 3077 UCGAAGUA CUGAUGAGGNNNNNNNNCCGAA AUGUAGGG 7224 369 CUACAUCUA CUUCGAAG 3078 CUUCGAAG CUGAUGAGGNNNNNNNNCCGAA AGAUGUAG 7225 372 CAUCUACUU CGAAGAAA 3079 UUUCUUCG CUGAUGAGGNNNNNNNNCCGAA AGUAGAUG 7226 373 AUCUACUUC GAAGAAAA 3080 UUUUCUUC CUGAUGAGGNNNNNNNNCCGAA AAGUAGAU 7227 394 AGCGGAAUC UUCAAUCU 3081 AGAUUGAA CUGAUGAGGNNNNNNNNCCGAA AUUCCGCU 7228 396 CGGAAUCUU CAAUCUAC 3082 GUAGAUUG CUGAUGAGGNNNNNNNNCCGAA AGAUUCCG 7229 397 GGAAUCUUC AAUCUACA 3083 UGUAGAUU CUGAUGAGGNNNNNNNNCCGAA AAGAUUCC 7230 401 UCUUCAAUC UACAUAUU 3084 AAUAUGUA CUGAUGAGGNNNNNNNNCCGAA AUUGAAGA 7231 403 UUCAAUCUA CAUAUUUG 3085 CAAAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAUUGAA 7232 407 AUCUACAUA UUUGUUAG 3086 CUAACAAA CUGAUGAGGNNNNNNNNCCGAA AUGUAGAU 7233 409 CUACAUAUU UGUUAGUG 3087 CACUAACA CUGAUGAGGNNNNNNNNCCGAA AUAUGUAG 7234 410 UACAUAUUU GUUAGUGA 3088 UCACUAAC CUGAUGAGGNNNNNNNNCCGAA AAUAUGUA 7235 413 AUAUUUGUU AGUGAUGC 3089 GCAUCACU CUGAUGAGGNNNNNNNNCCGAA ACAAAUAU 7236 414 UAUUUGUUA GUGAUGCA 3090 UGCAUCAC CUGAUGAGGNNNNNNNNCCGAA AACAAAUA 7237 429 CAGGGAGUC CUUUCAUA 3091 UAUGAAAG CUGAUGAGGNNNNNNNNCCGAA ACUCCCUG 7238 432 GGAGUCCUU UCAUAGAG 3092 CUCUAUGA CUGAUGAGGNNNNNNNNCCGAA AGGACUCC 7239 433 GAGUCCUUU CAUAGAGA 3093 UCUCUAUG CUGAUGAGGNNNNNNNNCCGAA AAGGACUC 7240 434 AGUCCUUUC AUAGAGAU 3094 AUCUCUAU CUGAUGAGGNNNNNNNNCCGAA AAAGGACU 7241 437 CCUUUCAUA GAGAUGCA 3095 UGCAUCUC CUGAUGAGGNNNNNNNNCCGAA AUGAAAGG 7242 455 ACUGACAUA CCCAAACU 3096 AGUUUGGG CUGAUGAGGNNNNNNNNCCGAA AUGUCAGU 7243 464 CCCAAACUU GUGCACAU 3097 AUGUGCAC CUGAUGAGGNNNNNNNNCCGAA AGUUUGGG 7244 491 AGACAGCUC AUCAUCCC 3098 GGGAUGAU CUGAUGAGGNNNNNNNNCCGAA AGCUGUCU 7245 494 CAGCUCAUC AUCCCCUG 3099 CAGGGGAU CUGAUGAGGNNNNNNNNCCGAA AUGAGCUG 7246 497 CUCAUCAUC CCCUGCCG 3100 CGGCAGGG CUGAUGAGGNNNNNNNNCCGAA AUGAUGAG 7247 514 GGUGACGUC ACCCAACG 3101 CGUUGGGU CUGAUGAGGNNNNNNNNCCGAA ACGUCACC 7248 524 CCCAACGUC ACAGUCAC 3102 GUGACUGU CUGAUGAGGNNNNNNNNCCGAA ACGUUGGG 7249 530 GUCACAGUC ACCCUAAA 3103 UUUAGGGU CUGAUGAGGNNNNNNNNCCGAA ACUGUGAC 7250 536 GUCACCCUA AAAAAGUU 3104 AACUUUUU CUGAUGAGGNNNNNNNNCCGAA AGGGUGAC 7251 544 AAAAAAGUU UCCAUUUG 3105 CAAAUGGA CUGAUGAGGNNNNNNNNCCGAA ACUUUUUU 7252 545 AAAAAGUUU CCAUUUGA 3106 UCAAAUGG CUGAUGAGGNNNNNNNNCCGAA AACUUUUU 7253 546 AAAAGUUUC CAUUUGAU 3107 AUCAAAUG CUGAUGAGGNNNNNNNNCCGAA AAACUUUU 7254 550 GUUUCCAUU UGAUACUC 3108 GAGUAUCA CUGAUGAGGNNNNNNNNCCGAA AUGGAAAC 7255 551 UUUCCAUUU GAUACUCU 3109 AGAGUAUC CUGAUGAGGNNNNNNNNCCGAA AAUGGAAA 7256 555 CAUUUGAUA CUCUUACC 3110 GGUAAGAG CUGAUGAGGNNNNNNNNCCGAA AUCAAAUG 7257 558 UUGAUACUC UUACCCCU 3111 AGGGGUAA CUGAUGAGGNNNNNNNNCCGAA AGUAUCAA 7258 560 GAUACUCUU ACCCCUGA 3112 UCAGGGGU CUGAUGAGGNNNNNNNNCCGAA AGAGUAUC 7259 561 AUACUCUUA CCCCUGAU 3113 AUCAGGGG CUGAUGAGGNNNNNNNNCCGAA AAGAGUAU 7260 581 CAAAGAAUA ACAUGGGA 3114 UCCCAUGU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUG 7261 594 GGGACAGUA GGAGAGGC 3115 GCCUCUCC CUGAUGAGGNNNNNNNNCCGAA ACUGUCCC 7262 604 GAGAGGCUU UAUAAUAG 3116 CUAUUAUA CUGAUGAGGNNNNNNNNCCGAA AGCCUCUC 7263 605 AGAGGCUUU AUAAUAGC 3117 GCUAUUAU CUGAUGAGGNNNNNNNNCCGAA AAGCCUCU 7264 606 GAGGCUUUA UAAUAGCA 3118 UGCUAUUA CUGAUGAGGNNNNNNNNCCGAA AAAGCCUC 7265 608 GGCUUUAUA AUAGCAAA 3119 UUUGCUAU CUGAUGAGGNNNNNNNNCCGAA AUAAAGCC 7266 611 UUUAUAAUA GCAAAUGC 3120 GCAUUUGC CUGAUGAGGNNNNNNNNCCGAA AUUAUAAA 7267 625 UGCAACGUA CAAAGAGA 3121 UCUCUUUG CUGAUGAGGNNNNNNNNCCGAA ACGUUGCA 7268 635 AAAGAGAUA GGACUGCU 3122 AGCAGUCC CUGAUGAGGNNNNNNNNCCGAA AUCUCUUU 7269 662 GCCACCGUC AACGGGCA 3123 UGCCCGUU CUGAUGAGGNNNNNNNNCCGAA ACGGUGGC 7270 676 GCACCUGUA CCAGACAA 3124 UUGUCUGG CUGAUGAGGNNNNNNNNCCGAA ACAGGUGC 7271 688 GACAAACUA UCUGACCC 3125 GGGUCAGA CUGAUGAGGNNNNNNNNCCGAA AGUUUGUC 7272 690 CAAACUAUC UGACCCAU 3126 AUGGGUCA CUGAUGAGGNNNNNNNNCCGAA AUAGUUUG 7273 699 UGACCCAUC GGCAGACC 3127 GGUCUGCC CUGAUGAGGNNNNNNNNCCGAA AUGGGUCA 7274 711 AGACCAAUA CAAUCCUA 3128 UAGGAUUG CUGAUGAGGNNNNNNNNCCGAA AUUGGUCU 7275 716 AAUACAAUC CUAGAUGU 3129 ACAUCUAG CUGAUGAGGNNNNNNNNCCGAA AUUGUAUU 7276 719 ACAAUCCUA GAUGUCCA 3130 UGGACAUC CUGAUGAGGNNNNNNNNCCGAA AGGAUUGU 7277 725 CUAGAUGUC CAAAUACG 3131 CGUAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAUCUAG 7278 731 GUCCAAAUA CGCCCGCC 3132 GGCGGGCG CUGAUGAGGNNNNNNNNCCGAA AUUUGGAC 7279 758 AGACUGCUC CACGGGCA 3133 UGCCCGUG CUGAUGAGGNNNNNNNNCCGAA AGCAGUCU 7280 771 GGCAGACUC UUGUCCUC 3134 GAGGACAA CUGAUGAGGNNNNNNNNCCGAA AGUCUGCC 7281 773 CAGACUCUU GUCCUCAA 3135 UUGAGGAC CUGAUGAGGNNNNNNNNCCGAA AGAGUCUG 7282 776 ACUCUUGUC CUCAACUG 3136 CAGUUGAG CUGAUGAGGNNNNNNNNCCGAA ACAAGAGU 7283 779 CUUGUCCUC AACUGCAC 3137 GUGCAGUU CUGAUGAGGNNNNNNNNCCGAA AGGACAAG 7284 803 ACGGAGCUC AAUACGAG 3138 CUCGUAUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCGU 7285 807 AGCUCAAUA CGAGGGUG 3139 CACCCUCG CUGAUGAGGNNNNNNNNCCGAA AUUGAGCU 7286 831 GCUGGAAUU ACCCUGGU 3140 ACCAGGGU CUGAUGAGGNNNNNNNNCCGAA AUUCCAGC 7287 832 CUGGAAUUA CCCUGGUA 3141 UACCAGGG CUGAUGAGGNNNNNNNNCCGAA AAUUCCAG 7288 840 ACCCUGGUA AAGCAACU 3142 AGUUGCUU CUGAUGAGGNNNNNNNNCCGAA ACCAGGGU 7289 849 AAGCAACUA AGAGAGCA 3143 UGCUCUCU CUGAUGAGGNNNNNNNNCCGAA AGUUGCUU 7290 859 GAGAGCAUC UAUAAGGC 3144 GCCUUAUA CUGAUGAGGNNNNNNNNCCGAA AUGCUCUC 7291 861 GAGCAUCUA UAAGGCAG 3145 CUGCCUUA CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC 7292 863 GCAUCUAUA AGGCAGCG 3146 CGCUGCCU CUGAUGAGGNNNNNNNNCCGAA AUAGAUGC 7293 875 CAGCGGAUU GACCGGAG 3147 CUCCGGUC CUGAUGAGGNNNNNNNNCCGAA AUCCGCUG 7294 888 GGAGCCAUU CCCACAAC 3148 GUUGUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGCUCC 7295 889 GAGCCAUUC CCACAACA 3149 UGUUGUGG CUGAUGAGGNNNNNNNNCCGAA AAUGGCUC 7296 904 CAAUGUGUU CCACAGUG 3150 CACUGUGG CUGAUGAGGNNNNNNNNCCGAA ACACAUUG 7297 905 AAUGUGUUC CACAGUGU 3151 ACACUGUG CUGAUGAGGNNNNNNNNCCGAA AACACAUU 7298 914 CACAGUGUU CUUAAGAU 3152 AUCUUAAG CUGAUGAGGNNNNNNNNCCGAA ACACUGUG 7299 915 ACAGUGUUC UUAAGAUC 3153 GAUCUUAA CUGAUGAGGNNNNNNNNCCGAA AACACUGU 7300 917 AGUGUUCUU AAGAUCAA 3154 UUGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGAACACU 7301 918 GUGUUCUUA AGAUCAAC 3155 GUUGAUCU CUGAUGAGGNNNNNNNNCCGAA AAGAACAC 7302 923 CUUAAGAUC AACAAUGU 3156 ACAUUGUU CUGAUGAGGNNNNNNNNCCGAA AUCUUAAG 7303 953 AAGGGGCUC UACACCUG 3157 CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGCCCCUU 7304 955 GGGGCUCUA CACCUGUC 3158 GACAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGCCCC 7305 963 ACACCUGUC GCGUGAAG 3159 CUUCACGC CUGAUGAGGNNNNNNNNCCGAA ACAGGUGU 7306 979 GAGUGGGUC CUCGUUCC 3160 GGAACGAG CUGAUGAGGNNNNNNNNCCGAA ACCCACUC 7307 982 UGGGUCCUC GUUCCAGU 3161 ACUGGAAC CUGAUGAGGNNNNNNNNCCGAA AGGACCCA 7308 985 GUCCUCGUU CCAGUCUU 3162 AAGACUGG CUGAUGAGGNNNNNNNNCCGAA ACGAGGAC 7309 986 UCCUCGUUC CAGUCUUU 3163 AAAGACUG CUGAUGAGGNNNNNNNNCCGAA AACGAGGA 7310 991 GUUCCAGUC UUUCAACA 3164 UGUUGAAA CUGAUGAGGNNNNNNNNCCGAA ACUGGAAC 7311 993 UCCAGUCUU UCAACACC 3165 GGUGUUGA CUGAUGAGGNNNNNNNNCCGAA AGACUGGA 7312 994 CCAGUCUUU CAACACCU 3166 AGGUGUUG CUGAUGAGGNNNNNNNNCCGAA AAGACUGG 7313 995 CAGUCUUUC AACACCUC 3167 GAGGUGUU CUGAUGAGGNNNNNNNNCCGAA AAAGACUG 7314 1003 CAACACCUC CGUGCAUG 3168 CAUGCACG CUGAUGAGGNNNNNNNNCCGAA AGGUGUUG 7315 1015 GCAUGUGUA UGAAAAAG 3169 CUUUUUCA CUGAUGAGGNNNNNNNNCCGAA ACACAUGC 7316 1027 AAAAGGAUU CAUCAGUG 3170 CACUGAUG CUGAUGAGGNNNNNNNNCCGAA AUCCUUUU 7317 1028 AAAGGAUUC AUCAGUGU 3171 ACACUGAU CUGAUGAGGNNNNNNNNCCGAA AAUCCUUU 7318 1031 GGAUUCAUC AGUGUGAA 3172 UUCACACU CUGAUGAGGNNNNNNNNCCGAA AUGAAUCC 7319 1044 UGAAACAUC GGAAGCAG 3173 CUGCUUCC CUGAUGAGGNNNNNNNNCCGAA AUGUUUCA 7320 1084 AAGACGGUC CUAUCGGC 3174 GCCGAUAG CUGAUGAGGNNNNNNNNCCGAA ACCGUCUU 7321 1087 ACGGUCCUA UCGGCUGU 3175 ACAGCCGA CUGAUGAGGNNNNNNNNCCGAA AGGACCGU 7322 1089 GGUCCUAUC GGCUGUCC 3176 GGACAGCC CUGAUGAGGNNNNNNNNCCGAA AUAGGACC 7323 1096 UCGGCUGUC CAUGAAAG 3177 CUUUCAUG CUGAUGAGGNNNNNNNNCCGAA ACAGCCGA 7324 1114 GAAGGCCUU CCCCUCCC 3178 GGGAGGGG CUGAUGAGGNNNNNNNNCCGAA AGGCCUUC 7325 1115 AAGGCCUUC CCCUCCCC 3179 GGGGAGGG CUGAUGAGGNNNNNNNNCCGAA AAGGCCUU 7326 1120 CUUCCCCUC CCCAGAAA 3180 UUUCUGGG CUGAUGAGGNNNNNNNNCCGAA AGGGGAAG 7327 1130 CCAGAAAUC GUAUGGUU 3181 AACCAUAC CUGAUGAGGNNNNNNNNCCGAA AUUUCUGG 7328 1133 GAAAUCGUA UGGUUAAA 3182 UUUAACCA CUGAUGAGGNNNNNNNNCCGAA ACGAUUUC 7329 1138 CGUAUGGUU AAAAGAUG 3183 CAUCUUUU CUGAUGAGGNNNNNNNNCCGAA ACCAUACG 7330 1139 GUAUGGUUA AAAGAUGG 210 CCAUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCAUAC 4366 1150 AGAUGGCUC GCCUGCAA 3184 UUGCAGGC CUGAUGAGGNNNNNNNNCCGAA AGCCAUCU 7331 1162 UGCAACAUU GAAGUCUG 3185 CAGACUUC CUGAUGAGGNNNNNNNNCCGAA AUGUUGCA 7332 1168 AUUGAAGUC UGCUCGCU 3186 AGCGAGCA CUGAUGAGGNNNNNNNNCCGAA ACUUCAAU 7333 1173 AGUCUGCUC GCUAUUUG 3187 CAAAUAGC CUGAUGAGGNNNNNNNNCCGAA AGCAGACU 7334 1177 UGCUCGCUA UUUGGUAC 3188 GUACCAAA CUGAUGAGGNNNNNNNNCCGAA AGCGAGCA 7335 1179 CUCGCUAUU UGGUACAU 3189 AUGUACCA CUGAUGAGGNNNNNNNNCCGAA AUAGCGAG 7336 1180 UCGCUAUUU GGUACAUG 3190 CAUGUACC CUGAUGAGGNNNNNNNNCCGAA AAUAGCGA 7337 1184 UAUUUGGUA CAUGGCUA 3191 UAGCCAUG CUGAUGAGGNNNNNNNNCCGAA ACCAAAUA 7338 1192 ACAUGGCUA CUCAUUAA 3192 UUAAUGAG CUGAUGAGGNNNNNNNNCCGAA AGCCAUGU 7339 1195 UGGCUACUC AUUAAUUA 3193 UAAUUAAU CUGAUGAGGNNNNNNNNCCGAA AGUAGCCA 7340 1198 CUACUCAUU AAUUAUCA 3194 UGAUAAUU CUGAUGAGGNNNNNNNNCCGAA AUGAGUAG 7341 1199 UACUCAUUA AUUAUCAA 3195 UUGAUAAU CUGAUGAGGNNNNNNNNCCGAA AAUGAGUA 7342 1202 UCAUUAAUU AUCAAAGA 3196 UCUUUGAU CUGAUGAGGNNNNNNNNCCGAA AUUAAUGA 7343 1203 CAUUAAUUA UCAAAGAU 3197 AUCUUUGA CUGAUGAGGNNNNNNNNCCGAA AAUUAAUG 7344 1205 UUAAUUAUC AAAGAUGU 3198 ACAUCUUU CUGAUGAGGNNNNNNNNCCGAA AUAAUUAA 7345 1237 AGGGGACUA UACGAUCU 3199 AGAUCGUA CUGAUGAGGNNNNNNNNCCGAA AGUCCCCU 7346 1239 GGGACUAUA CGAUCUUG 3200 CAAGAUCG CUGAUGAGGNNNNNNNNCCGAA AUAGUCCC 7347 1244 UAUACGAUC UUGCUGGG 3201 CCCAGCAA CUGAUGAGGNNNNNNNNCCGAA AUCGUAUA 7348 1246 UACGAUCUU GCUGGGCA 3202 UGCCCAGC CUGAUGAGGNNNNNNNNCCGAA AGAUCGUA 7349 1256 CUGGGCAUA AAGCAGUC 3203 GACUGCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCCAG 7350 1264 AAAGCAGUC AAGGCUAU 3204 AUAGCCUU CUGAUGAGGNNNNNNNNCCGAA ACUGCUUU 7351 1271 UCAAGGCUA UUUAAAAA 3205 UUUUUAAA CUGAUGAGGNNNNNNNNCCGAA AGCCUUGA 7352 1273 AAGGCUAUU UAAAAACC 3206 GGUUUUUA CUGAUGAGGNNNNNNNNCCGAA AUAGCCUU 7353 1274 AGGCUAUUU AAAAACCU 3207 AGGUUUUU CUGAUGAGGNNNNNNNNCCGAA AAUAGCCU 7354 1275 GGCUAUUUA AAAACCUC 3208 GAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AAAUAGCC 7355 1283 AAAAACCUC ACUGCCAC 237 GUGGCAGU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU 4393 1293 CUGCCACUC UCAUUGUA 3209 UACAAUGA CUGAUGAGGNNNNNNNNCCGAA AGUGGCAG 7356 1295 GCCACUCUC AUUGUAAA 3210 UUUACAAU CUGAUGAGGNNNNNNNNCCGAA AGAGUGGC 7357 1298 ACUCUCAUU GUAAACGU 3211 ACGUUUAC CUGAUGAGGNNNNNNNNCCGAA AUGAGAGU 7358 1301 CUCAUUGUA AACGUGAA 3212 UUCACGUU CUGAUGAGGNNNNNNNNCCGAA ACAAUGAG 7359 1314 UGAAACCUC AGAUCUAC 3213 GUAGAUCU CUGAUGAGGNNNNNNNNCCGAA AGGUUUCA 7360 1319 CCUCAGAUC UACGAAAA 3214 UUUUCGUA CUGAUGAGGNNNNNNNNCCGAA AUCUGAGG 7361 1321 UCAGAUCUA CGAAAAGU 3215 ACUUUUCG CUGAUGAGGNNNNNNNNCCGAA AGAUCUGA 7362 1330 CGAAAAGUC CGUGUCCU 3216 AGGACACG CUGAUGAGGNNNNNNNNCCGAA ACUUUUCG 7363 1336 GUCCGUGUC CUCGCUUC 3217 GAAGCGAG CUGAUGAGGNNNNNNNNCCGAA ACACGGAC 7364 1339 CGUGUCCUC GCUUCCAA 3218 UUGGAAGC CUGAUGAGGNNNNNNNNCCGAA AGGACACG 7365 1343 UCCUCGCUU CCAAGCCC 3219 GGGCUUGG CUGAUGAGGNNNNNNNNCCGAA AGCGAGGA 7366 1344 CCUCGCUUC CAAGCCCA 3220 UGGGCUUG CUGAUGAGGNNNNNNNNCCGAA AAGCGAGG 7367 1356 GCCCACCUC UCUAUCCG 3221 CGGAUAGA CUGAUGAGGNNNNNNNNCCGAA AGGUGGGC 7368 1358 CCACCUCUC UAUCCGCU 3222 AGCGGAUA CUGAUGAGGNNNNNNNNCCGAA AGAGGUGG 7369 1360 ACCUCUCUA UCCGCUGG 3223 CCAGCGGA CUGAUGAGGNNNNNNNNCCGAA AGAGAGGU 7370 1362 CUCUCUAUC CGCUGGGC 3224 GCCCAGCG CUGAUGAGGNNNNNNNNCCGAA AUAGAGAG 7371 1382 AGACAAGUC CUCACUUG 3225 CAAGUGAG CUGAUGAGGNNNNNNNNCCGAA ACUUGUCU 7372 1385 CAAGUCCUC ACUUGCAC 3226 GUGCAAGU CUGAUGAGGNNNNNNNNCCGAA AGGACUUG 7373 1389 UCCUCACUU GCACCGUG 3227 CACGGUGC CUGAUGAGGNNNNNNNNCCGAA AGUGAGGA 7374 1399 CACCGUGUA UGGCAUCC 3228 GGAUGCCA CUGAUGAGGNNNNNNNNCCGAA ACACGGUG 7375 1406 UAUGGCAUC CCUCGGCC 3229 GGCCGAGG CUGAUGAGGNNNNNNNNCCGAA AUGCCAUA 7376 1410 GCAUCCCUC GGCCAACA 3230 UGUUGGCC CUGAUGAGGNNNNNNNNCCGAA AGGGAUGC 7377 1421 CCAACAAUC ACGUGGCU 3231 AGCCACGU CUGAUGAGGNNNNNNNNCCGAA AUUGUUGG 7378 1430 ACGUGGCUC UGGCACCC 3232 GGGUGCCA CUGAUGAGGNNNNNNNNCCGAA AGCCACGU 7379 1443 ACCCCUGUC ACCACAAU 3233 AUUGUGGU CUGAUGAGGNNNNNNNNCCGAA ACAGGGGU 7380 1452 ACCACAAUC ACUCCAAA 3234 UUUGGAGU CUGAUGAGGNNNNNNNNCCGAA AUUGUGGU 7381 1456 CAAUCACUC CAAAGAAA 3235 UUUCUUUG CUGAUGAGGNNNNNNNNCCGAA AGUGAUUG 7382 1468 AGAAAGGUA UGACUUCU 3236 AGAAGUCA CUGAUGAGGNNNNNNNNCCGAA ACCUUUCU 7383 1474 GUAUGACUU CUGCACUG 3237 CAGUGCAG CUGAUGAGGNNNNNNNNCCGAA AGUCAUAC 7384 1475 UAUGACUUC UGCACUGA 3238 UCAGUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUCAUA 7385 1495 UGAAGAAUC CUUUAUCC 3239 GGAUAAAG CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA 7386 1498 AGAAUCCUU UAUCCUGG 3240 CCAGGAUA CUGAUGAGGNNNNNNNNCCGAA AGGAUUCU 7387 1499 GAAUCCUUU AUCCUGGA 3241 UCCAGGAU CUGAUGAGGNNNNNNNNCCGAA AAGGAUUC 7388 1500 AAUCCUUUA UCCUGGAU 3242 AUCCAGGA CUGAUGAGGNNNNNNNNCCGAA AAAGGAUU 7389 1502 UCCUUUAUC CUGGAUCC 3243 GGAUCCAG CUGAUGAGGNNNNNNNNCCGAA AUAAAGGA 7390 1509 UCCUGGAUC CCAGCAGC 3244 GCUGCUGG CUGAUGAGGNNNNNNNNCCGAA AUCCAGGA 7391 1522 CAGCAACUU AGGAAACA 3245 UGUUUCCU CUGAUGAGGNNNNNNNNCCGAA AGUUGCUG 7392 1523 AGCAACUUA GGAAACAG 3246 CUGUUUCC CUGAUGAGGNNNNNNNNCCGAA AAGUUGCU 7393 1535 AACAGAAUU GAGAGCAU 280 AUGCUCUC CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU 4436 1544 GAGAGCAUC UCUCAGCG 3247 CGCUGAGA CUGAUGAGGNNNNNNNNCCGAA AUGCUCUC 7394 1546 GAGCAUCUC UCAGCGCA 3248 UGCGCUGA CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC 7395 1548 GCAUCUCUC AGCGCAUG 3249 CAUGCGCU CUGAUGAGGNNNNNNNNCCGAA AGAGAUGC 7396 1562 AUGACGGUC AUAGAAGG 3250 CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA ACCGUCAU 7397 1565 ACGGUCAUA GAAGGAAC 3251 GUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUGACCGU 7398 1578 GAACAAAUA AGACGGUU 3252 AACCGUCU CUGAUGAGGNNNNNNNNCCGAA AUUUGUUC 7399 1586 AAGACGGUU AGCACAUU 3253 AAUGUGCU CUGAUGAGGNNNNNNNNCCGAA ACCGUCUU 7400 1587 AGACGGUUA GCACAUUG 3254 CAAUGUGC CUGAUGAGGNNNNNNNNCCGAA AACCGUCU 7401 1594 UAGCACAUU GGUGGUGG 3255 CCACCACC CUGAUGAGGNNNNNNNNCCGAA AUGUGCUA 7402 1609 GGCUGACUC UCAGACCC 3256 GGGUCUGA CUGAUGAGGNNNNNNNNCCGAA AGUCAGCC 7403 1611 CUGACUCUC AGACCCCU 3257 AGGGGUCU CUGAUGAGGNNNNNNNNCCGAA AGAGUCAG 7404 1625 CCUGGAAUC UACAGCUG 3258 CAGCUGUA CUGAUGAGGNNNNNNNNCCGAA AUUCCAGG 7405 1627 UGGAAUCUA CAGCUGCC 3259 GGCAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAUUCCA 7406 1642 CCGGGCCUU CAAUAAAA 3260 UUUUAUUG CUGAUGAGGNNNNNNNNCCGAA AGGCCCGG 7407 1643 CGGGCCUUC AAUAAAAU 3261 AUUUUAUU CUGAUGAGGNNNNNNNNCCGAA AAGGCCCG 7408 1647 CCUUCAAUA AAAUAGGG 3262 CCCUAUUU CUGAUGAGGNNNNNNNNCCGAA AUUGAAGG 7409 1652 AAUAAAAUA GGGACUGU 3263 ACAGUCCC CUGAUGAGGNNNNNNNNCCGAA AUUUUAUU 7410 1673 AGAAACAUA AAAUUUUA 3264 UAAAAUUU CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU 7411 1678 CAUAAAAUU UUAUGUCA 3265 UGACAUAA CUGAUGAGGNNNNNNNNCCGAA AUUUUAUG 7412 1679 AUAAAAUUU UAUGUCAC 3266 GUGACAUA CUGAUGAGGNNNNNNNNCCGAA AAUUUUAU 7413 1680 UAAAAUUUU AUGUCACA 3267 UGUGACAU CUGAUGAGGNNNNNNNNCCGAA AAAUUUUA 7414 1681 AAAAUUUUA UGUCACAG 3268 CUGUGACA CUGAUGAGGNNNNNNNNCCGAA AAAAUUUU 7415 1685 UUUUAUGUC ACAGAUGU 3269 ACAUCUGU CUGAUGAGGNNNNNNNNCCGAA ACAUAAAA 7416 1705 GAAUGGCUU UCACGUUU 3270 AAACGUGA CUGAUGAGGNNNNNNNNCCGAA AGCCAUUC 7417 1706 AAUGGCUUU CACGUUUC 3271 GAAACGUG CUGAUGAGGNNNNNNNNCCGAA AAGCCAUU 7418 1707 AUGGCUUUC ACGUUUCC 3272 GGAAACGU CUGAUGAGGNNNNNNNNCCGAA AAAGCCAU 7419 1712 UUUCACGUU UCCUUGGA 3273 UCCAAGGA CUGAUGAGGNNNNNNNNCCGAA ACGUGAAA 7420 1713 UUCACGUUU CCUUGGAA 3274 UUCCAAGG CUGAUGAGGNNNNNNNNCCGAA AACGUGAA 7421 1714 UCACGUUUC CUUGGAAA 3275 UUUCCAAG CUGAUGAGGNNNNNNNNCCGAA AAACGUGA 7422 1717 CGUUUCCUU GGAAAAGA 3276 UCUUUUCC CUGAUGAGGNNNNNNNNCCGAA AGGAAACG 7423 1756 GAAACUGUC CUGUGUGG 3277 CCACACAG CUGAUGAGGNNNNNNNNCCGAA ACAGUUUC 7424 1766 UGUGUGGUC AAUAAAUU 3278 AAUUUAUU CUGAUGAGGNNNNNNNNCCGAA ACCACACA 7425 1770 UGGUCAAUA AAUUCCUG 3279 CAGGAAUU CUGAUGAGGNNNNNNNNCCGAA AUUGACCA 7426 1774 CAAUAAAUU CCUGUACA 3280 UGUACAGG CUGAUGAGGNNNNNNNNCCGAA AUUUAUUG 7427 1775 AAUAAAUUC CUGUACAG 3281 CUGUACAG CUGAUGAGGNNNNNNNNCCGAA AAUUUAUU 7428 1780 AUUCCUGUA CAGAGACA 3282 UGUCUCUG CUGAUGAGGNNNNNNNNCCGAA ACAGGAAU 7429 1790 AGAGACAUU ACCUGGAU 3283 AUCCAGGU CUGAUGAGGNNNNNNNNCCGAA AUGUCUCU 7430 1791 GAGACAUUA CCUGGAUU 3284 AAUCCAGG CUGAUGAGGNNNNNNNNCCGAA AAUGUCUC 7431 1799 ACCUGGAUU CUGCUACG 3285 CGUAGCAG CUGAUGAGGNNNNNNNNCCGAA AUCCAGGU 7432 1800 CCUGGAUUC UGCUACGG 3286 CCGUAGCA CUGAUGAGGNNNNNNNNCCGAA AAUCCAGG 7433 1805 AUUCUGCUA CGGACAGU 3287 ACUGUCCG CUGAUGAGGNNNNNNNNCCGAA AGCAGAAU 7434 1814 CGGACAGUU AACAACAG 3288 CUGUUGUU CUGAUGAGGNNNNNNNNCCGAA ACUGUCCG 7435 1815 GGACAGUUA ACAACAGA 3289 UCUGUUGU CUGAUGAGGNNNNNNNNCCGAA AACUGUCC 7436 1836 UGCACCAUA GUAUCAGC 3290 GCUGAUAC CUGAUGAGGNNNNNNNNCCGAA AUGGUGCA 7437 1839 ACCAUAGUA UCAGCAAG 3291 CUUGCUGA CUGAUGAGGNNNNNNNNCCGAA ACUAUGGU 7438 1841 CAUAGUAUC AGCAAGCA 3292 UGCUUGCU CUGAUGAGGNNNNNNNNCCGAA AUACUAUG 7439 1866 CCACCACUC AAGAUUAC 3293 GUAAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUGGUGG 7440 1872 CUCAAGAUU ACUCCAUC 3294 GAUGGAGU CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG 7441 1873 UCAAGAUUA CUCCAUCA 3295 UGAUGGAG CUGAUGAGGNNNNNNNNCCGAA AAUCUUGA 7442 1876 AGAUUACUC CAUCACUC 3296 GAGUGAUG CUGAUGAGGNNNNNNNNCCGAA AGUAAUCU 7443 1880 UACUCCAUC ACUCUGAA 3297 UUCAGAGU CUGAUGAGGNNNNNNNNCCGAA AUGGAGUA 7444 1884 CCAUCACUC UGAACCUU 3298 AAGGUUCA CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG 7445 1892 CUGAACCUU GUCAUCAA 3299 UUGAUGAC CUGAUGAGGNNNNNNNNCCGAA AGGUUCAG 7446 1895 AACCUUGUC AUCAAGAA 3300 UUCUUGAU CUGAUGAGGNNNNNNNNCCGAA ACAAGGUU 7447 1898 CUUGUCAUC AAGAACGU 3301 ACGUUCUU CUGAUGAGGNNNNNNNNCCGAA AUGACAAG 7448 1909 GAACGUGUC UCUAGAAG 3302 CUUCUAGA CUGAUGAGGNNNNNNNNCCGAA ACACGUUC 7449 1911 ACGUGUCUC UAGAAGAC 3303 GUCUUCUA CUGAUGAGGNNNNNNNNCCGAA AGACACGU 7450 1913 GUGUCUCUA GAAGACUC 3304 GAGUCUUC CUGAUGAGGNNNNNNNNCCGAA AGAGACAC 7451 1921 AGAAGACUC GGGCACCU 3305 AGGUGCCC CUGAUGAGGNNNNNNNNCCGAA AGUCUUCC 7452 1930 GGGCACCUA UGCGUGCA 3306 UGCACGCA CUGAUGAGGNNNNNNNNCCGAA AGGUGCCC 7453 1952 AGGAACAUA UACACAGG 3307 CCUGUGUA CUGAUGAGGNNNNNNNNCCGAA AUGUUCCU 7454 1954 GAACAUAUA CACAGGGG 3308 CCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUAUGUUC 7455 1970 GAAGACAUC CUUCGGAA 3309 UUCCGAAG CUGAUGAGGNNNNNNNNCCGAA AUGUCUUC 7456 1973 GACAUCCUU CGGAAGAC 3310 GUCUUCCG CUGAUGAGGNNNNNNNNCCGAA AGGAUGUC 7457 1974 ACAUCCUUC GGAAGACA 3311 UGUCUUCC CUGAUGAGGNNNNNNNNCCGAA AAGGAUGU 7458 1988 ACAGAAGUU CUCGUUAG 3312 CUAACGAG CUGAUGAGGNNNNNNNNCCGAA ACUUCUGU 7459 1989 CAGAAGUUC UCGUUAGA 3313 UCUAACGA CUGAUGAGGNNNNNNNNCCGAA AACUUCUG 7460 1991 GAAGUUCUC GUUAGAGA 3314 UCUCUAAC CUGAUGAGGNNNNNNNNCCGAA AGAACUUC 7461 1994 GUUCUCGUU AGAGAUUC 3315 GAAUCUCU CUGAUGAGGNNNNNNNNCCGAA ACGAGAAC 7462 1995 UUCUCGUUA GAGAUUCG 3316 CGAAUCUC CUGAUGAGGNNNNNNNNCCGAA AACGAGAA 7463 2001 UUAGAGAUU CGGAAGCG 3317 CGCUUCCG CUGAUGAGGNNNNNNNNCCGAA AUCUCUAA 7464 2002 UAGAGAUUC GGAAGCGC 3318 GCGCUUCC CUGAUGAGGNNNNNNNNCCGAA AAUCUCUA 7465 2021 CACCUGCUU CAAAACCU 3319 AGGUUUUG CUGAUGAGGNNNNNNNNCCGAA AGCAGGUG 7466 2022 ACCUGCUUC AAAACCUC 3320 GAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AAGCAGGU 7467 2030 CAAAACCUC AGUGACUA 3321 UAGUCACU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUG 7468 2038 CAGUGACUA CGAGGUCU 3322 AGACCUCG CUGAUGAGGNNNNNNNNCCGAA AGUCACUG 7469 2045 UACGAGGUC UCCAUCAG 3323 CUGAUGGA CUGAUGAGGNNNNNNNNCCGAA ACCUCGUA 7470 2047 CGAGGUCUC CAUCAGUG 3324 CACUGAUG CUGAUGAGGNNNNNNNNCCGAA AGACCUCG 7471 2051 GUCUCCAUC AGUGGCUC 3325 GAGCCACU CUGAUGAGGNNNNNNNNCCGAA AUGGAGAC 7472 2059 CAGUGGCUC UACGACCU 3326 AGGUCGUA CUGAUGAGGNNNNNNNNCCGAA AGCCACUG 7473 2061 GUGGCUCUA CGACCUUA 3327 UAAGGUCG CUGAUGAGGNNNNNNNNCCGAA AGAGCCAC 7474 2068 UACGACCUU AGACUGUC 3328 GACAGUCU CUGAUGAGGNNNNNNNNCCGAA AGGUCGUA 7475 2069 ACGACCUUA GACUGUCA 3329 UGACAGUC CUGAUGAGGNNNNNNNNCCGAA AAGGUCGU 7476 2076 UAGACUGUC AAGCUAGA 3330 UCUAGCUU CUGAUGAGGNNNNNNNNCCGAA ACAGUCUA 7477 2082 GUCAAGCUA GAGGUGUC 3331 GACACCUC CUGAUGAGGNNNNNNNNCCGAA AGCUUGAC 7478 2090 AGAGGUGUC CCCGCGCC 3332 GGCGCGGG CUGAUGAGGNNNNNNNNCCGAA ACACCUCU 7479 2100 CCGCGCCUC AGAUCACU 3333 AGUGAUCU CUGAUGAGGNNNNNNNNCCGAA AGGCGCGG 7480 2105 CCUCAGAUC ACUUGGUU 378 AACCAAGU CUGAUGAGGNNNNNNNNCCGAA AUCUGAGG 4534 2109 AGAUCACUU GGUUCAAA 3334 UUUGAACC CUGAUGAGGNNNNNNNNCCGAA AGUGAUCU 7481 2113 CACUUGGUU CAAAAACA 3335 UGUUUUUG CUGAUGAGGNNNNNNNNCCGAA ACCAAGUG 7482 2114 ACUUGGUUC AAAAACAA 3336 UUGUUUUU CUGAUGAGGNNNNNNNNCCGAA AACCAAGU 4537 2132 CACAAAAUA CAACAAGA 383 UCUUGUUG CUGAUGAGGNNNNNNNNCCGAA AUUUUGUG 4539 2150 CCGGGAAUU AUUUUAGG 3337 CCUAAAAU CUGAUGAGGNNNNNNNNCCGAA AUUCCCGG 7483 2151 CGGGAAUUA UUUUAGGA 3338 UCCUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUUCCCG 7484 2153 GGAAUUAUU UUAGGACC 386 GGUCCUAA CUGAUGAGGNNNNNNNNCCGAA AUAAUUCC 4542 2154 GAAUUAUUU UAGGACCA 387 UGGUCCUA CUGAUGAGGNNNNNNNNCCGAA AAUAAUUC 4543 2155 AAUUAUUUU AGGACCAG 388 CUGGUCCU CUGAUGAGGNNNNNNNNCCGAA AAAUAAUU 4544 2156 AUUAUUUUA GGACCAGG 389 CCUGGUCC CUGAUGAGGNNNNNNNNCCGAA AAAAUAAU 4545 2179 CACGCUGUU UAUUGAAA 390 UUUCAAUA CUGAUGAGGNNNNNNNNCCGAA ACAGCGUG 4546 2180 ACGCUGUUU AUUGAAAG 391 CUUUCAAU CUGAUGAGGNNNNNNNNCCGAA AACAGCGU 4547 2181 CGCUGUUUA UUGAAAGA 392 UCUUUCAA CUGAUGAGGNNNNNNNNCCGAA AAACAGCG 4548 2183 CUGUUUAUU GAAAGAGU 393 ACUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUAAACAG 4549 2192 GAAAGAGUC ACAGAGGA 3339 UCCUCUGU CUGAUGAGGNNNNNNNNCCGAA ACUCUUUC 7485 2213 GAGGGUGUC UAUAGGUG 3340 CACCUAUA CUGAUGAGGNNNNNNNNCCGAA ACACCCUC 7486 2215 GGGUGUCUA UAGGUGCC 3341 GGCACCUA CUGAUGAGGNNNNNNNNCCGAA AGACACCC 7487 2217 GUGUCUAUA GGUGCCGA 3342 UCGGCACC CUGAUGAGGNNNNNNNNCCGAA AUAGACAC 7488 2263 CGCAGCCUA CCUCACCG 3343 CGGUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGCUGCG 7489 2267 GCCUACCUC ACCGUGCA 3344 UGCACGGU CUGAUGAGGNNNNNNNNCCGAA AGGUAGGC 7490 2284 AGGAACCUC AGACAAGU 3345 ACUUGUCU CUGAUGAGGNNNNNNNNCCGAA AGGUUCCU 7491 2293 AGACAAGUC AAACCUGG 3346 CCAGGUUU CUGAUGAGGNNNNNNNNCCGAA ACUUGUCU 7492 2309 GAGCUGAUC ACGCUCAC 3347 GUGAGCGU CUGAUGAGGNNNNNNNNCCGAA AUCAGCUC 7493 2315 AUCACGCUC ACGUGCAC 3348 GUGCACGU CUGAUGAGGNNNNNNNNCCGAA AGCGUGAU 7494 2342 GCGACCCUC UUUUGGCU 3349 AGCCAAAA CUGAUGAGGNNNNNNNNCCGAA AGGGUCGC 7495 2344 GACCCUCUU UUGGCUCC 3350 GGAGCCAA CUGAUGAGGNNNNNNNNCCGAA AGAGGGUC 7496 2345 ACCCUCUUU UGGCUCCU 3351 AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAGGGU 7497 2346 CCCUCUUUU GGCUCCUU 3352 AAGGAGCC CUGAUGAGGNNNNNNNNCCGAA AAAGAGGG 7498 2351 UUUUGGCUC CUUCUAAC 3353 GUUAGAAG CUGAUGAGGNNNNNNNNCCGAA AGCCAAAA 7499 2354 UGGCUCCUU CUAACUCU 3354 AGAGUUAG CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA 7500 2355 GGCUCCUUC UAACUCUC 3355 GAGAGUUA CUGAUGAGGNNNNNNNNCCGAA AAGGAGCC 7501 2357 CUCCUUCUA ACUCUCUU 3356 AAGAGAGU CUGAUGAGGNNNNNNNNCCGAA AGAAGGAG 7502 2361 UUCUAACUC UCUUCAUC 3357 GAUGAAGA CUGAUGAGGNNNNNNNNCCGAA AGUUAGAA 7503 2363 CUAACUCUC UUCAUCAG 3358 CUGAUGAA CUGAUGAGGNNNNNNNNCCGAA AGAGUUAG 7504 2365 AACUCUCUU CAUCAGAA 3359 UUCUGAUG CUGAUGAGGNNNNNNNNCCGAA AGAGAGUU 7505 2366 ACUCUCUUC AUCAGAAA 3360 UUUCUGAU CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU 7506 2369 CUCUUCAUC AGAAAACU 3361 AGUUUUCU CUGAUGAGGNNNNNNNNCCGAA AUGAAGAG 7507 2386 GAAGCGGUC UUCUUCCG 3362 CGGAAGAA CUGAUGAGGNNNNNNNNCCGAA ACCGCUUC 7508 2388 AGCGGUCUU CUUCCGAA 3363 UUCGGAAG CUGAUGAGGNNNNNNNNCCGAA AGACCGCU 7509 2389 GCGGUCUUC UUCCGAAG 3364 CUUCGGAA CUGAUGAGGNNNNNNNNCCGAA AAGACCGC 7510 2391 GGUCUUCUU CCGAAGUA 3365 UACUUCGG CUGAUGAGGNNNNNNNNCCGAA AGAAGACC 7511 2392 GUCUUCUUC CGAAGUAA 3366 UUACUUCG CUGAUGAGGNNNNNNNNCCGAA AAGAAGAC 7512 2399 UCCGAAGUA AAGACAGA 3367 UCUGUCUU CUGAUGAGGNNNNNNNNCCGAA ACUUCGGA 7513 2410 GACAGACUA CCUGUCAA 3368 UUGACAGG CUGAUGAGGNNNNNNNNCCGAA AGUCUGUC 7514 2416 CUACCUGUC AAUCAUUA 3369 UAAUGAUU CUGAUGAGGNNNNNNNNCCGAA ACAGGUAG 7515 2420 CUGUCAAUC AUUAUGGA 3370 UCCAUAAU CUGAUGAGGNNNNNNNNCCGAA AUUGACAG 7516 2423 UCAAUCAUU AUGGACCC 3371 GGGUCCAU CUGAUGAGGNNNNNNNNCCGAA AUGAUUGA 7517 2424 CAAUCAUUA UGGACCCA 3372 UGGGUCCA CUGAUGAGGNNNNNNNNCCGAA AAUGAUUG 7518 2441 GAUGAAGUU CCCCUGGA 3373 UCCAGGGG CUGAUGAGGNNNNNNNNCCGAA ACUUCAUC 7519 2442 AUGAAGUUC CCCUGGAU 3374 AUCCAGGG CUGAUGAGGNNNNNNNNCCGAA AACUUCAU 7520 2473 GCUGCCCUA UGAUGCCA 3375 UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AGGGCAGC 7521 2494 GUGGGAGUU UGCACGGG 3376 CCCGUGCA CUGAUGAGGNNNNNNNNCCGAA ACUCCCAC 7522 2495 UGGGAGUUU GCACGGGA 3377 UCCCGUGC CUGAUGAGGNNNNNNNNCCGAA AACUCCCA 7523 2516 CUGAAACUA GGCAAAUC 3378 GAUUUGCC CUGAUGAGGNNNNNNNNCCGAA AGUUUCAG 7524 2524 AGGCAAAUC GCUCGGAA 3379 UUCCGAGC CUGAUGAGGNNNNNNNNCCGAA AUUUGCCU 7525 2528 AAAUCGCUC GGAAGAGG 3380 CCUCUUCC CUGAUGAGGNNNNNNNNCCGAA AGCGAUUU 7526 2541 GAGGGGCUU UUGGGAAA 3381 UUUCCCAA CUGAUGAGGNNNNNNNNCCGAA AGCCCCUC 7527 2542 AGGGGCUUU UGGGAAAG 3382 CUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AAGCCCCU 7528 2543 GGGGCUUUU GGGAAAGU 3383 ACUUUCCC CUGAUGAGGNNNNNNNNCCGAA AAAGCCCC 7529 2552 GGGAAAGUC GUUCAAGC 3384 GCUUGAAC CUGAUGAGGNNNNNNNNCCGAA ACUUUCCC 7530 2555 AAAGUCGUU CAAGCCUC 3385 GAGGCUUG CUGAUGAGGNNNNNNNNCCGAA ACGACUUU 7531 2556 AAGUCGUUC AAGCCUCU 3386 AGAGGCUU CUGAUGAGGNNNNNNNNCCGAA AACGACUU 7532 2563 UCAAGCCUC UGCAUUUG 3387 CAAAUGCA CUGAUGAGGNNNNNNNNCCGAA AGGCUUGA 7533 2569 CUCUGCAUU UGGCAUUA 3388 UAAUGCCA CUGAUGAGGNNNNNNNNCCGAA AUGCAGAG 7534 2570 UCUGCAUUU GGCAUUAA 3389 UUAAUGCC CUGAUGAGGNNNNNNNNCCGAA AAUGCAGA 7535 2576 UUUGGCAUU AAGAAAUC 457 GAUUUCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCAAA 4613 2577 UUGGCAUUA AGAAAUCA 458 UGAUUUCU CUGAUGAGGNNNNNNNNCCGAA AAUGCCAA 4614 2584 UAAGAAAUC ACCCACCU 3390 AGGUGGGU CUGAUGAGGNNNNNNNNCCGAA AUUUCUUA 7536 2617 GAAGAUGUU GAAAGAGG 3391 CCUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUCUUC 7537 2644 CAGUGAGUA CAAAGCUC 3392 GAGCUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCACUG 7538 2652 ACAAAGCUC UGAUGACC 3393 GGUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUUGU 7539 2666 ACCGAACUC AAGAUCUU 3394 AAGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCGGU 7540 2672 CUCAAGAUC UUGACCCA 3395 UGGGUCAA CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG 7541 2674 CAAGAUCUU GACCCACA 3396 UGUGGGUC CUGAUGAGGNNNNNNNNCCGAA AGAUCUUG 7542 2684 ACCCACAUC GGCCAUCA 3397 UGAUGGCC CUGAUGAGGNNNNNNNNCCGAA AUGUGGGU 7543 2691 UCGGCCAUC AUCUGAAU 3398 AUUCAGAU CUGAUGAGGNNNNNNNNCCGAA AUGGCCGA 7544 2694 GCCAUCAUC UGAAUGUG 3399 CACAUUCA CUGAUGAGGNNNNNNNNCCGAA AUGAUGGC 7545 2705 AAUGUGGUU AACCUCCU 3400 AGGAGGUU CUGAUGAGGNNNNNNNNCCGAA ACCACAUU 7546 2706 AUGUGGUUA ACCUCCUG 3401 CAGGAGGU CUGAUGAGGNNNNNNNNCCGAA AACCACAU 7547 2711 GUUAACCUC CUGGGAGC 3402 GCUCCCAG CUGAUGAGGNNNNNNNNCCGAA AGGUUAAC 7548 2742 GAGGGCCUC UGAUGGUG 470 CACCAUCA CUGAUGAGGNNNNNNNNCCGAA AGGCCCUC 4626 2753 AUGGUGAUC GUGGAAUA 3403 UAUUCCAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU 7549 2761 CGUGGAAUA CUGCAAAU 3404 AUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCCACG 7550 2770 CUGCAAAUA CGGAAACC 3405 GGUUUCCG CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG 7551 2782 AAACCUGUC CAACUACC 3406 GGUAGUUG CUGAUGAGGNNNNNNNNCCGAA ACAGGUUU 7552 2788 GUCCAACUA CCUCAAGA 3407 UCUUGAGG CUGAUGAGGNNNNNNNNCCGAA AGUUGGAC 7553 2792 AACUACCUC AAGAGCAA 479 UUGCUCUU CUGAUGAGGNNNNNNNNCCGAA AGGUAGUU 4635 2809 ACGUGACUU AUUCUGUC 3408 GACAGAAU CUGAUGAGGNNNNNNNNCCGAA AGUCACGU 7554 2810 CGUGACUUA UUCUGUCU 3409 AGACAGAA CUGAUGAGGNNNNNNNNCCGAA AAGUCACG 7555 2812 UGACUUAUU CUGUCUCA 3410 UGAGACAG CUGAUGAGGNNNNNNNNCCGAA AUAAGUCA 7556 2813 GACUUAUUC UGUCUCAA 3411 UUGAGACA CUGAUGAGGNNNNNNNNCCGAA AAUAAGUC 7557 2817 UAUUCUGUC UCAACAAG 3412 CUUGUUGA CUGAUGAGGNNNNNNNNCCGAA ACAGAAUA 7558 2819 UUCUGUCUC AACAAGGA 3413 UCCUUGUU CUGAUGAGGNNNNNNNNCCGAA AGACAGAA 7559 2836 CGCAGCCUU GCAUAUGG 3414 CCAUAUGC CUGAUGAGGNNNNNNNNCCGAA AGGCUGCG 7560 2841 CCUUGCAUA UGGAGCUC 3415 GAGCUCCA CUGAUGAGGNNNNNNNNCCGAA AUGCAAGG 7561 2849 AUGGAGCUC AAGAAAGA 3416 UCUUUCUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCAU 7562 2900 CCCCGCCUA GACAGUGU 3417 ACACUGUC CUGAUGAGGNNNNNNNNCCGAA AGGCGGGG 7563 2909 GACAGUGUC AGCAGCUC 3418 GAGCUGCU CUGAUGAGGNNNNNNNNCCGAA ACACUGUC 7564 2917 CAGCAGCUC AAGUGUCA 3419 UGACACUU CUGAUGAGGNNNNNNNNCCGAA AGCUGCUG 7565 2924 UCAAGUGUC ACCAGCUC 3420 GAGCUGGU CUGAUGAGGNNNNNNNNCCGAA ACACUUGA 7566 2932 CACCAGCUC CAGCUUCC 3421 GGAAGCUG CUGAUGAGGNNNNNNNNCCGAA AGCUGGUG 7567 2938 CUCCAGCUU CCCUGAAG 3422 CUUCAGGG CUGAUGAGGNNNNNNNNCCGAA AGCUGGAG 7568 2939 UCCAGCUUC CCUGAAGA 3423 UCUUCAGG CUGAUGAGGNNNNNNNNCCGAA AAGCUGGA 7569 2982 ACGAGGAUU ACAGUGAG 3424 CUCACUGU CUGAUGAGGNNNNNNNNCCGAA AUCCUCGU 7570 2983 CGAGGAUUA CAGUGAGA 3425 UCUCACUG CUGAUGAGGNNNNNNNNCCGAA AAUCCUCG 7571 2993 AGUGAGAUC UCCAAGCA 3426 UGCUUGGA CUGAUGAGGNNNNNNNNCCGAA AUCUCACU 7572 2995 UGAGAUCUC CAAGCAGC 3427 GCUGCUUG CUGAUGAGGNNNNNNNNCCGAA AGAUCUCA 7573 3008 CAGCCCCUC ACCAUGGA 3428 UCCAUGGU CUGAUGAGGNNNNNNNNCCGAA AGGGGCUG 7574 3026 GACCUGAUU UCCUACAG 3429 CUGUAGGA CUGAUGAGGNNNNNNNNCCGAA AUCAGGUC 7575 3027 ACCUGAUUU CCUACAGU 3430 ACUGUAGG CUGAUGAGGNNNNNNNNCCGAA AAUCAGGU 7576 3028 CCUGAUUUC CUACAGUU 3431 AACUGUAG CUGAUGAGGNNNNNNNNCCGAA AAAUCAGG 7577 3031 GAUUUCCUA CAGUUUCC 3432 GGAAACUG CUGAUGAGGNNNNNNNNCCGAA AGGAAAUC 7578 3036 CCUACAGUU UCCAAGUG 3433 CACUUGGA CUGAUGAGGNNNNNNNNCCGAA ACUGUAGG 7579 3037 CUACAGUUU CCAAGUGG 3434 CCACUUGG CUGAUGAGGNNNNNNNNCCGAA AACUGUAG 7580 3038 UACAGUUUC CAAGUGGC 3435 GCCACUUG CUGAUGAGGNNNNNNNNCCGAA AAACUGUA 4675 3061 CAUGGAGUU UCUGUCCU 3436 AGGACAGA CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG 7581 3062 AUGGAGUUU CUGUCCUC 3437 GAGGACAG CUGAUGAGGNNNNNNNNCCGAA AACUCCAU 7582 3063 UGGAGUUUC UGUCCUCC 3438 GGAGGACA CUGAUGAGGNNNNNNNNCCGAA AAACUCCA 7583 3067 GUUUCUGUC CUCCAGAA 3439 UUCUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGAAAC 7584 3070 UCUGUCCUC CAGAAAGU 3440 ACUUUCUG CUGAUGAGGNNNNNNNNCCGAA AGGACAGA 7585 3083 AAGUGCAUU CAUCGGGA 526 UCCCGAUG CUGAUGAGGNNNNNNNNCCGAA AUGCACUU 4682 3084 AGUGCAUUC AUCGGGAC 527 GUCCCGAU CUGAUGAGGNNNNNNNNCCGAA AAUGCACU 4683 3087 GCAUUCAUC GGGACCUG 528 CAGGUCCC CUGAUGAGGNNNNNNNNCCGAA AUGAAUGC 4684 3110 AGAAACAUC CUUUUAUC 3441 GAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU 4685 3113 AACAUCCUU UUAUCUGA 3442 UCAGAUAA CUGAUGAGGNNNNNNNNCCGAA AGGAUGUU 7586 3114 ACAUCCUUU UAUCUGAG 3443 CUCAGAUA CUGAUGAGGNNNNNNNNCCGAA AAGGAUGU 7587 3115 CAUCCUUUU AUCUGAGA 3444 UCUCAGAU CUGAUGAGGNNNNNNNNCCGAA AAAGGAUG 7588 3116 AUCCUUUUA UCUGAGAA 3445 UUCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAAAGGAU 7589 3118 CCUUUUAUC UGAGAACA 3446 UGUUCUCA CUGAUGAGGNNNNNNNNCCGAA AUAAAAGG 7590 3140 GUGAAGAUU UGCGACUU 3447 AAGUCGCA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAC 7591 3141 UGAAGAUUU GCGACUUU 3448 AAAGUCGC CUGAUGAGGNNNNNNNNCCGAA AAUCUUCA 7592 3148 UUGCGACUU UGGCCUGG 3449 CCAGGCCA CUGAUGAGGNNNNNNNNCCGAA AGUCGCAA 7593 3149 UGCGACUUU GGCCUGGC 3450 GCCAGGCC CUGAUGAGGNNNNNNNNCCGAA AAGUCGCA 7594 3165 CCCGGGAUA UUUAUAAG 542 CUUAUAAA CUGAUGAGGNNNNNNNNCCGAA AUCCCGGG 4698 3167 CGGGAUAUU UAUAAGAA 543 UUCUUAUA CUGAUGAGGNNNNNNNNCCGAA AUAUCCCG 4699 3168 GGGAUAUUU AUAAGAAC 544 GUUCUUAU CUGAUGAGGNNNNNNNNCCGAA AAUAUCCC 4700 3169 GGAUAUUUA UAAGAACC 545 GGUUCUUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUCC 4701 3171 AUAUUUAUA AGAACCCU 3451 AGGGUUCU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU 7595 3183 ACCCUGAUU AUGUGAGG 3452 CCUCACAU CUGAUGAGGNNNNNNNNCCGAA AUCAGGGU 7596 3184 CCCUGAUUA UGUGAGGA 3453 UCCUCACA CUGAUGAGGNNNNNNNNCCGAA AAUCAGGG 7597 3201 GAGGAGAUA CUCGACUU 3454 AAGUCGAG CUGAUGAGGNNNNNNNNCCGAA AUCUCCUC 7598 3204 GAGAUACUC GACUUCCC 3455 GGGAAGUC CUGAUGAGGNNNNNNNNCCGAA AGUAUCUC 7599 3209 ACUCGACUU CCCCUAAA 3456 UUUAGGGG CUGAUGAGGNNNNNNNNCCGAA AGUCGAGU 7600 3210 CUCGACUUC CCCUAAAA 3457 UUUUAGGG CUGAUGAGGNNNNNNNNCCGAA AAGUCGAG 7601 3215 CUUCCCCUA AAAUGGAU 3458 AUCCAUUU CUGAUGAGGNNNNNNNNCCGAA AGGGGAAG 7602 3228 GGAUGGCUC CUGAAUCC 3459 GGAUUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCAUCC 7603 3235 UCCUGAAUC CAUCUUUG 3460 CAAAGAUG CUGAUGAGGNNNNNNNNCCGAA AUUCAGGA 7604 3239 GAAUCCAUC UUUGACAA 3461 UUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUGGAUUC 7605 3241 AUCCAUCUU UGACAAGG 3462 CCUUGUCA CUGAUGAGGNNNNNNNNCCGAA AGAUGGAU 7606 3242 UCCAUCUUU GACAAGGU 3463 ACCUUGUC CUGAUGAGGNNNNNNNNCCGAA AAGAUGGA 7607 3252 GACAAGGUC UACAGCAC 3464 GUGCUGUA CUGAUGAGGNNNNNNNNCCGAA ACCUUGUC 7608 3253 CAAGGUCUA CAGCACCA 3465 UGGUGCUG CUGAUGAGGNNNNNNNNCCGAA AGACCUUG 7609 3277 UGUGUGGUC CUAUGGCG 3466 CGCCAUAG CUGAUGAGGNNNNNNNNCCGAA ACCACACA 7610 3280 GUGGUCCUA UGGCGUGU 3467 ACACGCCA CUGAUGAGGNNNNNNNNCCGAA AGGACCAC 7611 3289 UGGCGUGUU GCUGUGGG 3468 CCCACAGC CUGAUGAGGNNNNNNNNCCGAA ACACGCCA 7612 3302 UGGGAGAUC UUCUCCUU 3469 AAGGAGAA CUGAUGAGGNNNNNNNNCCGAA AUCUCCCA 7613 3304 GGAGAUCUU CUCCUUAG 3470 CUAAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAUCUCC 7614 3305 GAGAUCUUC UCCUUAGG 3471 CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAGAUCUC 7615 3307 GAUCUUCUC CUUAGGGG 3472 CCCCUAAG CUGAUGAGGNNNNNNNNCCGAA AGAAGAUC 7616 3310 CUUCUCCUU AGGGGGUU 3473 AACCCCCU CUGAUGAGGNNNNNNNNCCGAA AGGAGAAG 7617 3311 UUCUCCUUA GGGGGUUC 3474 GAACCCCC CUGAUGAGGNNNNNNNNCCGAA AAGGAGAA 7618 3318 UAGGGGGUU CUCCAUAC 3475 GUAUGGAG CUGAUGAGGNNNNNNNNCCGAA ACCCCCUA 7619 3319 AGGGGGUUC UCCAUACC 3476 GGUAUGGA CUGAUGAGGNNNNNNNNCCGAA AACCCCCU 7620 3321 GGGGUUCUC CAUACCCA 3477 UGGGUAUG CUGAUGAGGNNNNNNNNCCGAA AGAACCCC 7621 3325 UUCUCCAUA CCCAGGAG 3478 CUCCUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA 7622 3352 UGAAGACUU CUGCAGCC 3479 GGCUGCAG CUGAUGAGGNNNNNNNNCCGAA AGUCUUCA 7623 3353 GAAGACUUC UGCAGCCG 3480 CGGCUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUCUUC 7624 3397 CCCGGAGUA UGCCACAC 3481 GUGUGGCA CUGAUGAGGNNNNNNNNCCGAA ACUCCGGG 7625 3413 CCUGAAAUC UACCAAAU 3482 AUUUGGUA CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG 7626 3415 UGAAAUCUA CCAAAUCA 3483 UGAUUUGG CUGAUGAGGNNNNNNNNCCGAA AGAUUUCA 7627 3422 UACCAAAUC AUGUUGGA 3484 UCCAACAU CUGAUGAGGNNNNNNNNCCGAA AUUUGGUA 7628 3427 AAUCAUGUU GGAUUGCU 3485 AGCAAUCC CUGAUGAGGNNNNNNNNCCGAA ACAUGAUU 7629 3432 UGUUGGAUU GCUGGCAC 3486 GUGCCAGC CUGAUGAGGNNNNNNNNCCGAA AUCCAACA 7630 3466 GCCCCGGUU UGCUGAAC 3487 GUUCAGCA CUGAUGAGGNNNNNNNNCCGAA ACCGGGGC 7631 3467 CCCCGGUUU GCUGAACU 3488 AGUUCAGC CUGAUGAGGNNNNNNNNCCGAA AACCGGGG 7632 3476 GCUGAACUU GUGGAGAA 3489 UUCUCCAC CUGAUGAGGNNNNNNNNCCGAA AGUUCAGC 7633 3488 GAGAAACUU GGUGACCU 3490 AGGUCACC CUGAUGAGGNNNNNNNNCCGAA AGUUUCUC 7634 3500 GACCUGCUU CAAGCCAA 3491 UUGGCUUG CUGAUGAGGNNNNNNNNCCGAA AGCAGGUC 7635 3501 ACCUGCUUC AAGCCAAC 3492 GUUGGCUU CUGAUGAGGNNNNNNNNCCGAA AAGCAGGU 7636 3512 GCCAACGUC CAACAGGA 3493 UCCUGUUG CUGAUGAGGNNNNNNNNCCGAA ACGUUGGC 7637 3531 GGAAAGAUU ACAUCCCC 3494 GGGGAUGU CUGAUGAGGNNNNNNNNCCGAA AUCUUUCC 7638 3532 GAAAGAUUA CAUCCCCC 3495 GGGGGAUG CUGAUGAGGNNNNNNNNCCGAA AAUCUUUC 7639 3536 GAUUACAUC CCCCUCAA 3496 UUGAGGGG CUGAUGAGGNNNNNNNNCCGAA AUGUAAUC 7640 3542 AUCCCCCUC AAUGCCAU 3497 AUGGCAUU CUGAUGAGGNNNNNNNNCCGAA AGGGGGAU 7641 3551 AAUGCCAUA CUGACUAG 3498 CUAGUCAG CUGAUGAGGNNNNNNNNCCGAA AUGGCAUU 7642 3558 UACUGACUA GAAACAGU 3499 ACUGUUUC CUGAUGAGGNNNNNNNNCCGAA AGUCAGUA 7643 3567 GAAACAGUA GCUUCACA 3500 UGUGAAGC CUGAUGAGGNNNNNNNNCCGAA ACUGUUUC 7644 3571 CAGUAGCUU CACAUACU 3501 AGUAUGUG CUGAUGAGGNNNNNNNNCCGAA AGCUACUG 7645 3572 AGUAGGCUC ACAUACUC 3502 GAGUAUGU CUGAUGAGGNNNNNNNNCCGAA AAGCUACU 7646 3577 CUUCACAUA CUCGACCC 3503 GGGUCGAG CUGAUGAGGNNNNNNNNCCGAA AUGUGAAG 7647 3580 CACAUACUC GACCCCCA 3504 UGGGGGUC CUGAUGAGGNNNNNNNNCCGAA AGUAUGUG 7648 3592 CCCCACCUU CUCUGAGG 3505 CCUCAGAG CUGAUGAGGNNNNNNNNCCGAA AGGUGGGG 7649 3593 CCCACCUUC UCUGAGGA 3506 UCCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAGGUGGG 7650 3595 CACCUUCUC UGAGGACC 3507 GGUCCUCA CUGAUGAGGNNNNNNNNCCGAA AGAAGGUG 7651 3605 GAGGACCUU UUCAAGGA 3508 UCCUUGAA CUGAUGAGGNNNNNNNNCCGAA AGGUCCUC 7652 3606 AGGACCUUU UCAAGGAC 3509 GUCCUUGA CUGAUGAGGNNNNNNNNCCGAA AAGGUCCU 7653 3607 GGACCUUUU CAAGGACG 3510 CGUCCUUG CUGAUGAGGNNNNNNNNCCGAA AAAGGUCC 7654 3608 GACCUUUUC AAGGACGG 3511 CCGUCCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGGUC 7655 3619 GGACGGCUU UGGAGAUC 3512 GAUCUGCA CUGAUGAGGNNNNNNNNCCGAA AGCCGUCC 7656 3620 GACGGCUUU GCAGAUCC 3513 GGAUCUGC CUGAUGAGGNNNNNNNNCCGAA AAGCCGUC 7657 3627 UUGCAGAUC CACAUUUU 3514 AAAAUGUG CUGAUGAGGNNNNNNNNCCGAA AUCUGCAA 7658 3633 AUCCACAUU UUCAUUCC 3515 GGAAUGAA CUGAUGAGGNNNNNNNNCCGAA AUGUGGAU 7659 3634 UCCACAUUU UCAUUCCG 3516 CGGAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUGUGGA 7660 3635 CCACAUUUU CAUUCCGG 3517 CCGGAAUG CUGAUGAGGNNNNNNNNCCGAA AAAUGUGG 7661 3636 CACAUUUUC AUUCCGGA 3518 UCCGGAAU CUGAUGAGGNNNNNNNNCCGAA AAAAUGUG 7662 3639 AUUUUCAUU CCGGAAGC 3519 GCUUCCGG CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU 7663 3640 UUUUCAUUC CGGAAGCU 3520 AGCUUCCG CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA 7664 3649 CGGAAGCUC UGAUGAUG 3521 CAUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUCCG 7665 3664 UGUGAGAUA UGUAAACG 3522 CGUUUACA CUGAUGAGGNNNNNNNNCCGAA AUCUCACA 7666 3668 AGAUAUGUA AACGCUUU 3523 AAAGCGUU CUGAUGAGGNNNNNNNNCCGAA ACAUAUCU 7667 3675 UAAACGCUU UCAAAUUC 3524 GAAUUUGA CUGAUGAGGNNNNNNNNCCGAA AGCGUUUA 7668 3676 AAACGCUUU CAAAUUCA 3525 UGAAUUUG CUGAUGAGGNNNNNNNNCCGAA AAGCGUUU 7669 3677 AACGCUUUC AAAUUCAU 3526 AUGAAUUU CUGAUGAGGNNNNNNNNCCGAA AAAGCGUU 7670 3682 UUUCAAAUU CAUGAGCC 3527 GGCUCAUG CUGAUGAGGNNNNNNNNCCGAA AUUUGAAA 7671 3683 UUCAAAUUC AUGAGCCU 3528 AGGCUCAU CUGAUGAGGNNNNNNNNCCGAA AAUUUGAA 7672 3701 GAAAGAAUC AAAACCUU 637 AAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC 4793 3709 CAAAACCUU UGAGGAGC 3529 GCUCCUCA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUG 7673 3710 AAAACCUUU GAGGAGCU 3530 AGCUCCUC CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU 7674 3719 GAGGAGCUU UCACCGAA 3531 UUCGGUGA CUGAUGAGGNNNNNNNNCCGAA AGCUCCUC 7675 3720 AGGAGCUUU CACCGAAC 3532 GUUCGGUG CUGAUGAGGNNNNNNNNCCGAA AAGCUCCU 7676 3721 GGAGCUUUC ACCGAACU 3533 AGUUCGGU CUGAUGAGGNNNNNNNNCCGAA AAAGCUCC 7677 3730 ACCGAACUC CACCUCCA 3534 UGGAGGUG CUGAUGAGGNNNNNNNNCCGAA AGUUCGGU 7678 3736 CUCCACCUC CAUGUUUG 3535 CAAACAUG CUGAUGAGGNNNNNNNNCCGAA AGGUGGAG 7679 3742 CUCCAUGUU UGAGGACU 3536 AGUCCUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGGAG 7680 3743 UCCAUGUUU GAGGACUA 3537 UAGUCCUC CUGAUGAGGNNNNNNNNCCGAA AACAUGGA 7681 3751 UGAGGACUA UCAGCUGG 3538 CCAGCUGA CUGAUGAGGNNNNNNNNCCGAA AGUCCUCA 7682 3753 AGGACUAUC AGCUGGAC 3539 GUCCAGCU CUGAUGAGGNNNNNNNNCCGAA AUAGUCCU 7683 3765 UGGACACUA GCACUCUG 3540 CAGAGUGC CUGAUGAGGNNNNNNNNCCGAA AGUGUCCA 7684 3771 CUAGCACUC UGCUGGGC 3541 GCCCAGCA CUGAUGAGGNNNNNNNNCCGAA AGUGCUAG 7685 3781 GCUGGGCUC CCCCUUGC 3542 GCAAGGGG CUGAUGAGGNNNNNNNNCCGAA AGCCCAGC 7686 3787 CUCCCCCUU GCUGAAGC 3543 GCUUCAGC CUGAUGAGGNNNNNNNNCCGAA AGGGGGAG 7687 3799 GAAGCGGUU CACCUGGA 3544 UCCAGGUG CUGAUGAGGNNNNNNNNCCGAA ACCGCUUC 7688 3800 AAGCGGUUC ACCUGGAC 3545 GUCCAGGU CUGAUGAGGNNNNNNNNCCGAA AACCGCUU 7689 3829 CAAGGCCUC CAUGAAGA 3546 UCUUCAUG CUGAUGAGGNNNNNNNNCCGAA AGGCCUUG 7690 3839 AUGAAGAUA GACUUGAG 3547 CUCAAGUC CUGAUGAGGNNNNNNNNCCGAA AUCUUCAU 7691 3844 GAUAGACUU GAGAAUAG 3548 CUAUUCUC CUGAUGAGGNNNNNNNNCCGAA AGUCUAUC 7692 3851 UUGAGAAUA GCGAGUAA 3549 UUACUCGC CUGAUGAGGNNNNNNNNCCGAA AUUCUCAA 7693 3858 UAGCGAGUA AAAGCAAG 3550 CUUGCUUU CUGAUGAGGNNNNNNNNCCGAA ACUCGCUA 7694 3878 GCGGGACUU UCCGAUCU 3551 AGAUCGGA CUGAUGAGGNNNNNNNNCCGAA AGUCCCGC 7695 3879 CGGGACUUU CCGAUCUG 3552 CAGAUCGG CUGAUGAGGNNNNNNNNCCGAA AAGUCCCG 7696 3880 GGGACUUUC CGAUCUGC 3553 GCAGAUCG CUGAUGAGGNNNNNNNNCCGAA AAAGUCCC 7697 3885 UUUCCGAUC UGCCGAGG 3554 CGUCGGCA CUGAUGAGGNNNNNNNNCCGAA AUCGGAAA 7698 3901 GCCCAGCUU CUGCUUCU 3555 AGAAGCAG CUGAUGAGGNNNNNNNNCCGAA AGCUGGGC 7699 3902 CCCAGCUUC UGCUUCUC 3556 GAGAAGCA CUGAUGAGGNNNNNNNNCCGAA AAGCUGGG 7700 3907 CUUCUGCUU CUCCAGCU 3557 AGGUGGAG CUGAUGAGGNNNNNNNNCCGAA AGCAGAAG 7701 3908 UUCUGCUUC UCCAGCUG 3558 CAGCUGGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGAA 7702 3910 CUGCUUCUC CAGCUGUG 3559 CACAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG 7703 3926 GGCCACAUC AGGCCCGU 3560 ACGGGCCU CUGAUGAGGNNNNNNNNCCGAA AUGUGGCC 7704 3949 CGAUGAAUC UGAGCUGG 3561 CCAGCUCA CUGAUGAGGNNNNNNNNCCGAA AUUCAUCG 7705 3967 AAAGGAGUC CUGCUGUU 3562 AACAGCAG CUGAUGAGGNNNNNNNNCCGAA ACUCCUUU 7706 3975 CCUGCUGUU CUCCACCC 3563 GGGUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGCAGG 7707 3976 CUGCUGUUC UCCACCCC 3564 GGGGUGGA CUGAUGAGGNNNNNNNNCCGAA AACAGCAG 7708 3978 GCUGUUCUC CACCCCCA 3565 UGGGGGUG CUGAUGAGGNNNNNNNNCCGAA AGAACAGC 7709 3991 CCCAGACUA CAACUCCG 3566 CGGAGUUG CUGAUGAGGNNNNNNNNCCGAA AGUCUGGG 7710 3997 CUACAACUC CGUGGUGU 3567 ACACCACG CUGAUGAGGNNNNNNNNCCGAA AGUUGUAG 7711 4006 CGUGGUGUU GUACUCCU 3568 AGGAGUAC CUGAUGAGGNNNNNNNNCCGAA ACACCACG 7712 4009 GGUGUUGUA CUCCUCCC 3569 GGGAGGAG CUGAUGAGGNNNNNNNNCCGAA ACAACACC 7713 4012 GUUGUACUC CUCCCCGC 3570 GCGGGGAG CUGAUGAGGNNNNNNNNCCGAA AGUACAAC 7714 4015 GUACUCCUC CCCGCCCG 3571 CGGGCGGG CUGAUGAGGNNNNNNNNCCGAA AGGAGUAC 7715 4027 GCCCGCCUA AAGCUUCU 3572 AGAAGCUU CUGAUGAGGNNNNNNNNCCGAA AGGCGGGC 7716 4033 CUAAAGCUU CUCACCAG 3573 CUGGUGAG CUGAUGAGGNNNNNNNNCCGAA AGCUUUAG 7717 4034 UAAAGCUUC UCACCAGC 3574 GCUGGUGA CUGAUGAGGNNNNNNNNCCGAA AAGCUUUA 7718 4036 AAGCUUCUC ACCAGCCC 3575 GGGCUGGU CUGAUGAGGNNNNNNNNCCGAA AGAAGCUU 7719 4066 CUGACAGUA UUAUACAU 3576 AUGUAUAA CUGAUGAGGNNNNNNNNCCGAA ACUGUCAG 7720 4068 GACAGUAUU AUACAUCU 3577 AGAUGUAU CUGAUGAGGNNNNNNNNCCGAA AUACUGUC 7721 4069 ACAGUAUUA UACAUCUA 3578 UAGAUGUA CUGAUGAGGNNNNNNNNCCGAA AAUACUGU 7722 4071 AGUAUUAUA CAUCUAUG 3579 CAUAGAUG CUGAUGAGGNNNNNNNNCCGAA AUAAUACU 7723 4075 UUAUACAUC UAUGAGUU 3580 AACUCAUA CUGAUGAGGNNNNNNNNCCGAA AUGUAUAA 7724 4077 AUACAUCUA UGAGUUUA 3581 UAAACUCA CUGAUGAGGNNNNNNNNCCGAA AGAUGUAU 7725 4083 CUAUGAGUU UACACCUA 3582 UAGGUGUA CUGAUGAGGNNNNNNNNCCGAA ACUCAUAG 7726 4084 UAUGAGUUU ACACCUAU 3583 AUAGGUGU CUGAUGAGGNNNNNNNNCCGAA AACUCAUA 7727 4085 AUGAGUUUA CACCUAUU 3584 AAUAGGUG CUGAUGAGGNNNNNNNNCCGAA AAACUCAU 7728 4091 UUACACCUA UUCCGCUC 3585 GAGCGGAA CUGAUGAGGNNNNNNNNCCGAA AGGUGUAA 7729 4093 ACACCUAUU CCGCUCCA 3586 UGGAGCGG CUGAUGAGGNNNNNNNNCCGAA AUAGGUGU 7730 4094 CACCUAUUC CGCUCCAC 3587 GUGGAGCG CUGAUGAGGNNNNNNNNCCGAA AAUAGGUG 7731 4099 AUUCCGCUC CACAGGAG 3588 CUCCUGUG CUGAUGAGGNNNNNNNNCCGAA AGCGGAAU 7732 4117 CAGCUGCUU UUCGUGAC 3589 GUCACGAA CUGAUGAGGNNNNNNNNCCGAA AGCAGCUG 7733 4118 AGCUGCUUU UCGUGACC 3590 GGUCACGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGCU 7734 4119 GCUGCUUUU CGUGACCU 3591 AGGUCACG CUGAUGAGGNNNNNNNNCCGAA AAAGCAGC 7735 4120 CUGCUUUUC GUGACCUU 3592 AAGGUCAC CUGAUGAGGNNNNNNNNCCGAA AAAAGCAG 7736 4128 CGUGACCUU UAAUCGUG 3593 CACGAUUA CUGAUGAGGNNNNNNNNCCGAA AGGUCACG 7737 4129 GUGACCUUU AAUCGUGC 3594 GCACGAUU CUGAUGAGGNNNNNNNNCCGAA AAGGUCAC 7738 4130 UGACCUUUA AUCGUGCU 3595 AGCACGAU CUGAUGAGGNNNNNNNNCCGAA AAAGGUCA 7739 4133 CCUUUAAUC GUGCUUUU 3596 AAAAGCAC CUGAUGAGGNNNNNNNNCCGAA AUUAAAGG 7740 4139 AUCGUGCUU UUUUGUUU 3597 AAACAAAA CUGAUGAGGNNNNNNNNCCGAA AGCACGAU 7741 4140 UCGUGCUUU UUUGUUUU 3598 AAAACAAA CUGAUGAGGNNNNNNNNCCGAA AAGCACGA 7742 4141 CGUGCUUUU UUGUUUUU 3599 AAAAACAA CUGAUGAGGNNNNNNNNCCGAA AAAGCACG 7743 4142 GUGCUUUUU UGUUUUUU 3600 AAAAAACA CUGAUGAGGNNNNNNNNCCGAA AAAAGCAC 7744 4143 UGCUUUUUU GUUUUUUG 3601 CAAAAAAC CUGAUGAGGNNNNNNNNCCGAA AAAAAGCA 7745 4146 UUUUUUGUU UUUUGUUU 3602 AAACAAAA CUGAUGAGGNNNNNNNNCCGAA ACAAAAAA 7746 4147 UUUUUGUUU UUUGUUUU 3603 AAAACAAA CUGAUGAGGNNNNNNNNCCGAA AACAAAAA 7747 4148 UUUUGUUUU UUGUUUUG 3604 CAAAACAA CUGAUGAGGNNNNNNNNCCGAA AAACAAAA 7748 4149 UUUGUUUUU UGUUUUGU 3605 ACAAAACA CUGAUGAGGNNNNNNNNCCGAA AAAACAAA 7749 4150 UUGUUUUUU GUUUUGUU 3606 AACAAAAC CUGAUGAGGNNNNNNNNCCGAA AAAAACAA 7750 4153 UUUUUUGUU UUGUUUGU 3607 ACAAACAA CUGAUGAGGNNNNNNNNCCGAA ACAAAAAA 7751 4154 UUUUUGUUU UGUUUGUU 3608 AACAAACA CUGAUGAGGNNNNNNNNCCGAA AACAAAAA 7752 4155 UUUUGUUUU GUUUGUUG 3609 CAACAAAC CUGAUGAGGNNNNNNNNCCGAA AAACAAAA 7753 4158 UGUUUUGUU UGUUGUUG 3610 CAACAACA CUGAUGAGGNNNNNNNNCCGAA ACAAAACA 7754 4159 GUUUUGUUU GUUGUUGC 3611 GCAACAAC CUGAUGAGGNNNNNNNNCCGAA AACAAAAC 7755 4162 UUGUUUGUU GUUGCUGU 3612 ACAGCAAC CUGAUGAGGNNNNNNNNCCGAA ACAAACAA 7756 4165 UUUGUUGUU GCUGUUUU 3613 AAAACAGC CUGAUGAGGNNNNNNNNCCGAA ACAACAAA 7757 4171 GUUGCUGUU UUGACUAA 3614 UUAGUCAA CUGAUGAGGNNNNNNNNCCGAA ACAGCAAC 7758 4172 UUGCUGUUU UGACUAAC 3615 GUUAGUCA CUGAUGAGGNNNNNNNNCCGAA AACAGCAA 7759 4173 UGCUGUUUU GACUAACA 3616 UGUUAGUC CUGAUGAGGNNNNNNNNCCGAA AAACAGCA 7760 4178 UUUUGACUA ACAAGAAU 737 AUUCUUGU CUGAUGAGGNNNNNNNNCCGAA AGUCAAAA 4893 4189 AAGAAUGUA ACCCCAGU 3617 ACUGGGGU CUGAUGAGGNNNNNNNNCCGAA ACAUUCUU 7761 4198 ACCCCAGUU AGUGACGU 3618 ACGUCACU CUGAUGAGGNNNNNNNNCCGAA ACUGGGGU 7762 4199 CCCCAGUUA GUGACGUG 3619 CACGUCAC CUGAUGAGGNNNNNNNNCCGAA AACUGGGG 7763 4216 UGAAGAAUA CUAUUGUU 3620 AACAAUAG CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA 7764 4219 AGAAUACUA UUGUUAGA 3621 UCUAACAA CUGAUGAGGNNNNNNNNCCGAA AGUAUUCU 7765 4221 AAUACUAUU GUUAGAGA 3622 UCUCUAAC CUGAUGAGGNNNNNNNNCCGAA AUAGUAUU 7766 4224 ACUAUUGUU AGAGAAAU 3623 AUUUCUCU CUGAUGAGGNNNNNNNNCCGAA ACAAUAGU 7767 4225 CUAUUGUUA GAGAAAUC 3624 GAUUUCUC CUGAUGAGGNNNNNNNNCCGAA AACAAUAG 7768 4233 AGAGAAAUC CCCCCCGC 3625 GCGGGGGG CUGAUGAGGNNNNNNNNCCGAA AUUUCUCU 7769 4249 CAAAGCCUC AGGGUAAC 3626 GUUACCCU CUGAUGAGGNNNNNNNNCCGAA AGGCUUUG 7770 4255 CUCAGGGUA ACCUGGAC 3627 GUCCAGGU CUGAUGAGGNNNNNNNNCCGAA ACCCUGAG 7771 4282 AGGUGCCUC UGGCGACC 3628 GGUCGCCA CUGAUGAGGNNNNNNNNCCGAA AGGCACCU 7772 4323 CCCACCCUC CCUGCAGC 3629 GCUGCAGG CUGAUGAGGNNNNNNNNCCGAA AGGGUGGG 7773 4341 GUGGGACUA GAGGCAGU 3630 ACUGCCUC CUGAUGAGGNNNNNNNNCCGAA AGUCCCAC 7774 4350 GAGGCAGUA AGCCCAUU 3631 AAUGGGCU CUGAUGAGGNNNNNNNNCCGAA ACUGCCUC 7775 4358 AAGCCCAUU AGCUCAUG 3632 CAUGAGCU CUGAUGAGGNNNNNNNNCCGAA AUGGGCUU 7776 4359 AGCCCAUUA GCUCAUGG 3633 CCAUGAGC CUGAUGAGGNNNNNNNNCCGAA AAUGGGCU 7777 4363 CAUUAGCUC AUGGCUGC 3634 GCAGCCAU CUGAUGAGGNNNNNNNNCCGAA AGCUAAUG 7778 4387 GACCUGCUC UGUCUCUC 3635 GAGAGACA CUGAUGAGGNNNNNNNNCCGAA AGCAGGUC 7779 4391 UGCUCUGUC UCUCUUAU 3636 AUAAGAGA CUGAUGAGGNNNNNNNNCCGAA ACAGAGCA 7780 4393 CUCUGUCUC UCUUAUGG 3637 CCAUAAGA CUGAUGAGGNNNNNNNNCCGAA AGACAGAG 7781 4395 CUGUCUCUC UUAUGGAG 3638 CUCCAUAA CUGAUGAGGNNNNNNNNCCGAA AGAGACAG 7782 4397 GUCUCUCUU AUGGAGGA 3639 UCCUCCAU CUGAUGAGGNNNNNNNNCCGAA AGAGAGAC 7783 4398 UCUCUCUUA UGGAGGAA 3640 UUCCUCCA CUGAUGAGGNNNNNNNNCCGAA AAGAGAGA 7784 4445 AAAAGGCUU UGGGAUGC 3641 GCAUCCCA CUGAUGAGGNNNNNNNNCCGAA AGCCUUUU 7785 4446 AAAGGCUUU GGGAUGCG 3642 CGCAUCCC CUGAUGAGGNNNNNNNNCCGAA AAGCCUUU 7786 4456 GGAUGCGUC CGUCCUGU 3643 ACAGGACG CUGAUGAGGNNNNNNNNCCGAA ACGCAUCC 7787 4460 GCGUCCGUC CUGUGGAG 3644 CUCCACAG CUGAUGAGGNNNNNNNNCCGAA ACGGACGC 7788 4487 AGGGGGCUC CGCUAUGC 3645 GCAUAGCG CUGAUGAGGNNNNNNNNCCGAA AGCCCCCU 7789 4492 GCUCCGCUA UGCCACUU 3646 AAGUGGCA CUGAUGAGGNNNNNNNNCCGAA AGCGGAGC 7790 4500 AUGCCACUU CAGUGACU 3647 AGUCACUG CUGAUGAGGNNNNNNNNCCGAA AGUGGCAU 7791 4501 UGCCACUUC AGUGACUU 3648 AAGUCACU CUGAUGAGGNNNNNNNNCCGAA AAGUGGCA 7792 4509 CAGUGACUU CUCACUCC 3649 GGAGUGAG CUGAUGAGGNNNNNNNNCCGAA AGUCACUG 7793 4510 AGUGACUUC UCACUCCU 3650 AGGAGUGA CUGAUGAGGNNNNNNNNCCGAA AAGUCACU 7794 4512 UGACUUCUC ACUCCUGG 3651 CCAGGAGU CUGAUGAGGNNNNNNNNCCGAA AGAAGUCA 7795 4526 UUCUCACUC CUGGCCUC 3652 GAGGCCAG CUGAUGAGGNNNNNNNNCCGAA AGUGAGAA 7796 4524 CCUGGCCUC CGCUGUUU 3653 AAACAGCG CUGAUGAGGNNNNNNNNCCGAA AGGCCAGG 7797 4531 UCCGCUGUU UCGGGCCC 3654 GGGCCCGA CUGAUGAGGNNNNNNNNCCGAA ACAGCGGA 7798 4532 CCGGUGUUU CGGGCCCC 3655 GGGGCCCG CUGAUGAGGNNNNNNNNCCGAA AACAGCGG 7799 4533 CGCUGUUUC GGGCCCCC 3656 GGGGGCCC CUGAUGAGGNNNNNNNNCCGAA AAACAGCG 7800 4543 GGCCCCCUU CCAAGAGG 3657 CCUCUUGG CUGAUGAGGNNNNNNNNCCGAA AGGGGGCC 7801 4544 GCCCCCUUC CAAGAGGU 3658 ACCUCUCG CUGAUGAGGNNNNNNNNCCGAA AAGGGGGC 7802 4553 CAAGAGGUA UCAGAGCA 3659 UGGUCUGA CUGAUGAGGNNNNNNNNCCGAA ACCUCUUG 7803 4555 AGAGGUAUC AGAGCAGA 3660 UCUGCUCU CUGAUGAGGNNNNNNNNCCGAA AUACCUCU 7804 4577 AGGGACGUU UCCUAGAC 3661 GUCUAGGA CUGAUGAGGNNNNNNNNCCGAA ACGUCCCU 7805 4578 GGGACGUUU CCUAGACC 3662 GGUCUAGG CUGAUGAGGNNNNNNNNCCGAA AACGUCCC 7806 4579 GGACGUUUC CUAGACCA 3663 UGGUCUAG CUGAUGAGGNNNNNNNNCCGAA AAACGUCC 7807 4582 CGUUUCCUA GACCAGGG 3664 CCCUGGUC CUGAUGAGGNNNNNNNNCCGAA AGGAAACG 7808 4598 GCACAUGUU CUCGGGAA 3665 UUCCCGAG CUGAUGAGGNNNNNNNNCCGAA ACAUGUGC 7809 4599 CACAUGUUC UCGGGAAC 3666 GUUCCCGA CUGAUGAGGNNNNNNNNCCGAA AACAUGUG 7810 4601 CAUGUUCUC GGGAACCA 3667 UGGUUCCC CUGAUGAGGNNNNNNNNCCGAA AGAACAUG 7811 4614 ACCACAGUU AAUCUUAA 3668 UUAAGAUU CUGAUGAGGNNNNNNNNCCGAA ACUGUGGU 7812 4615 CCACAGUUA AUCUUAAA 3669 UUUAAGAU CUGAUGAGGNNNNNNNNCCGAA AACUGUGG 7813 4618 CAGUUAAUC UUAAAUCU 3670 AGAUUUAA CUGAUGAGGNNNNNNNNCCGAA AUUAACUG 7814 4620 GUUAAUCUU AAAUCUUU 3671 AAAGAUUU CUGAUGAGGNNNNNNNNCCGAA AGAUUAAC 7815 4621 UUAAUCUUA AAUCUUUU 3672 AAAAGAUU CUGAUGAGGNNNNNNNNCCGAA AAGAUUAA 7816 4625 UCUUAAAUC UUUUCCCG 3673 CGGGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUAAGA 7817 4627 UUAAAUCUU UUCCCGGG 3674 CCCGGGAA CUGAUGAGGNNNNNNNNCCGAA AGAUUUAA 7818 4628 UAAAUCUUU UCCCGGGA 3675 UCCCGGGA CUGAUGAGGNNNNNNNNCCGAA AAGAUUUA 7819 4629 AAAUCUUUU CCCGGGAG 3676 CUCCCGGG CUGAUGAGGNNNNNNNNCCGAA AAAGAUUU 7820 4630 AAUCUUUUC CCGGGAGU 3677 ACUCCCGG CUGAUGAGGNNNNNNNNCCGAA AAAAGAUU 7821 4639 CCGGGAGUC UUCUGUUG 3678 CAACAGAA CUGAUGAGGNNNNNNNNCCGAA ACUCCCGG 7822 4641 GGGAGUCUU CUGUUGUC 3679 GACAACAG CUGAUGAGGNNNNNNNNCCGAA AGACUCCC 7823 4642 GGAGUCUUC UGUUGUCU 3680 AGACAACA CUGAUGAGGNNNNNNNNCCGAA AAGACUCC 7824 4646 UCUUCUGUU GUCUGUUU 3681 AAACAGAC CUGAUGAGGNNNNNNNNCCGAA ACAGAAGA 7825 4649 UCUGUUGUC UGUUUACC 3682 GGUAAACA CUGAUGAGGNNNNNNNNCCGAA ACAACAGA 7826 4653 UUGUCUGUU UACCAUCC 3683 GGAUGGUA CUCAUGAGGNNNNNNNNCCGAA ACAGACAA 7827 4654 UGUCUGUUU ACCAUCCA 3684 UGGAUGGU CUGAUGAGGNNNNNNNNCCGAA AACAGACA 7828 4655 GUCUGUUUA CCAUCCAA 3685 UUGGAUGG CUGAUGAGGNNNNNNNNCCGAA AAACAGAC 7829 4660 UUUACCAUC CAAAGCAU 3686 AUGCUUUG CUGAUGAGGNNNNNNNNCCGAA AUGGUAAA 7830 4669 CAAAGCAUA UUUAACAU 3687 AUGUUAAA CUGAUGAGGNNNNNNNNCCGAA AUGCUUUG 7831 4671 AAGCAUAUU UAACAUGU 3688 ACAUGUUA CUGAUGAGGNNNNNNNNCCGAA AUAUGCUU 7832 4672 AGCAUAUUU AACAUGUG 3689 CACAUGUU CUGAUGAGGNNNNNNNNCCGAA AAUAUGCU 7833 4673 GCAUAUUUA ACAUGUGU 3690 ACACAUGU CUGAUGAGGNNNNNNNNCCGAA AAAUAUGC 7834 4682 ACAUGUGUC AGUGGGGG 3691 CCCCCACU CUGAUGAGGNNNNNNNNCCGAA ACACAUGU 7835 4698 GUGGCGCUU GGCUUCUG 3692 CAGAAGCC CUGAUGAGGNNNNNNNNCCGAA AGCGCCAC 7836 4703 GCUUGGCUU CUGAGGCC 3693 GGCCUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCAAGC 7837 4704 CUUGGCUUC UGAGGCCA 3694 UGGCCUCA CUGAUGAGGNNNNNNNNCCGAA AAGCCAAG 7838 4720 AGAGCCAUC AUCAGUUC 3695 GAACUGAU CUGAUGAGGNNNNNNNNCCGAA AUGGCUCU 7839 4723 GCCAUCAUC AGUCCCUC 3696 GAGGAACU CUGAUGAGGNNNNNNNNCCGAA AUGAUGGC 7840 4727 UCAUCAGUU CCUCUAGU 3697 ACUAGAGG CUGAUGAGGNNNNNNNNCCGAA ACUGAUGA 7841 4728 CAUCAGUUC CUCUAGUG 3698 CACUAGAG CUGAUGAGGNNNNNNNNCCGAA AACUGAUG 7842 4731 CAGUUCCUC UAGUGAGA 3699 UCUCACUA CUGAUGAGGNNNNNNNNCCGAA AGGAACUG 7843 4733 GUUCCUCUA GUGAGAUG 3700 CAUCUCAC CUGAUGAGGNNNNNNNNCCGAA AGAGGAAC 7844 4745 AGAUGCAUU GAGGUCAU 3701 AUGACCUC CUGAUGAGGNNNNNNNNCCGAA AUGCAUCU 7845 4751 AUUGAGGUC AUACCCAA 3702 UUGGGUAU CUGAUGAGGNNNNNNNNCCGAA ACCUCAAU 7846 4754 GAGGUCAUA CCCAAGCU 3703 AGCUUGGG CUGAUGAGGNNNNNNNNCCGAA AUGACCUC 7847 4763 CCCAAGCUU GCAGGCCU 3704 AGGCCUGC CUGAUGAGGNNNNNNNNCCGAA AGCUUGGG 7848 4777 CCUGACCUU CGCAUACU 3705 AGUAUGCG CUGAUGAGGNNNNNNNNCCGAA AGGUCAGG 7849 4778 CUGACCUUC GCAUACUG 3706 CAGUAUGC CUGAUGAGGNNNNNNNNCCGAA AAGGUCAG 7850 4783 CUUCGCAUA CUGCUCAC 3707 GUGAGCAG CUGAUGAGGNNNNNNNNCCGAA AUGCGAAG 7851 4789 AUACUGCUC ACGGGGAG 3708 CUCCCCGU CUGAUGAGGNNNNNNNNCCGAA AGCAGUAU 7852 4799 CGGGGAGUU AAGUGGUC 3709 GACCACUU CUGAUGAGGNNNNNNNNCCGAA ACUCCCCG 7853 4800 GGGGAGUUA AGUGGUCC 3710 GGACCACU CUGAUGAGGNNNNNNNNCCGAA AACUCCCC 7854 4807 UAAGUGGUC CAGUUUGG 3711 CCAAACUG CUGAUGAGGNNNNNNNNCCGAA ACCACUUA 7855 4812 GGUCCAGUU UGGCCUAG 3712 CUAGGCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGACC 7856 4813 GUCCAGUUU GGCCUAGU 3713 ACUAGGCC CUGAUGAGGNNNNNNNNCCGAA AACUGGAC 7857 4819 UUUGGCCUA GUAAGGUU 3714 AACCUUAC CUGAUGAGGNNNNNNNNCCGAA AGGCCAAA 7858 4822 GGCCUAGUA AGGUUGCC 3715 GGCAACCU CUGAUGAGGNNNNNNNNCCGAA ACUAGGCC 7859 4827 AGUAAGGUU GCCUACUG 3716 CAGUAGGC CUGAUGAGGNNNNNNNNCCGAA ACCUUACU 7860 4832 GGUUGCCUA CUGAUGGG 3717 CCCAUCAG CUGAUGAGGNNNNNNNNCCGAA AGGCAACC 7861 4843 GAUGGGCUC AAAAGCCA 3718 UGGCUUUU CUGAUGAGGNNNNNNNNCCGAA AGCCCAUC 7862 4855 AGCCACAUU UUAAACAG 3719 CUGUUUAA CUGAUGAGGNNNNNNNNCCGAA AUGUGGCU 7863 4856 GCCACAUUU UAAACAGG 3720 CCUGUUUA CUGAUGAGGNNNNNNNNCCGAA AAUGUGGC 7864 4857 CCACAUUUU AAACAGGU 3721 ACCUGUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGUGG 7865 4858 CACAUUUUA AACAGGUU 3722 AACCUGUU CUGAUGAGGNNNNNNNNCCGAA AAAAUGUG 7866 4866 AAACAGGUU UUAUCUCA 3723 UGAGAUAA CUGAUGAGGNNNNNNNNCCGAA ACCUGUUU 7867 4867 AACAGGUUU UAUCUCAA 3724 UUGAGAUA CUGAUGAGGNNNNNNNNCCGAA AACCUGUU 7868 4868 ACAGGUUUU AUCUCAAG 3725 CUUGAGAU CUGAUGAGGNNNNNNNNCCGAA AAACCUGU 7869 4869 CAGGUUUUA UCUCAAGU 3726 ACUUGAGA CUGAUGAGGNNNNNNNNCCGAA AAAACCUG 7870 4871 GGUUUUAUC UCAAGUAU 3727 AUACUUGA CUGAUGAGGNNNNNNNNCCGAA AUAAAACC 7871 4873 UUUUAUCUC AAGUAUUA 3728 UAAUACUU CUGAUGAGGNNNNNNNNCCGAA AGAUAAAA 7872 4878 UCUCAAGUA UUAAUAUA 3729 UAUAUUAA CUGAUGAGGNNNNNNNNCCGAA ACUUGAGA 7873 4880 UCAAGUAUU AAUAUAUA 3730 UAUAUAUU CUGAUGAGGNNNNNNNNCCGAA AUACUUGA 7874 4881 CAAGUAUUA AUAUAUAG 3731 CUAUAUAU CUGAUGAGGNNNNNNNNCCGAA AAUACUUG 7875 4884 GUAUUAAUA UAUAGACA 3732 UGUCUAUA CUGAUGAGGNNNNNNNNCCGAA AUUAAUAC 7876 4886 AUUAAUAUA UAGACAAG 3733 CUUGUCUA CUGAUGAGGNNNNNNNNCCGAA AUAUUAAU 7877 4888 UAAUAUAUA GACAAGAC 3734 GUCUUGUC CUGAUGAGGNNNNNNNNCCGAA AUAUAUUA 7878 4900 AAGACACUU AUGCAUUA 3735 UAAUGCAU CUGAUGAGGNNNNNNNNCCGAA AGUGUCUU 7879 4901 AGACACUUA UGCAUUAU 3736 AUAAUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUGUCU 7880 4907 UUAUGCAUU AUCCUGUU 3737 AACAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGCAUAA 7881 4908 UAUGCAUUA UCCUGUUU 3738 AAACAGGA CUGAUGAGGNNNNNNNNCCGAA AAUGCAUA 7882 4910 UGCAUUAUC CUGUUUUA 3739 UAAAACAG CUGAUGAGGNNNNNNNNCCGAA AUAAUGCA 7883 4915 UAUCCUGUU UUAUAUAU 3740 AUAUAUAA CUGAUGAGGNNNNNNNNCCGAA ACAGGAUA 7884 4916 AUCCUGUUU UAUAUAUC 3741 GAUAUAUA CUGAUGAGGNNNNNNNNCCGAA AACAGGAU 7885 4917 UCCUGUUUU AUAUAUCC 3742 GGAUAUAU CUGAUGAGGNNNNNNNNCCGAA AAACAGGA 7886 4918 CCUGUUUUA UAUAUCCA 3743 UGGAUAUA CUGAUGAGGNNNNNNNNCCGAA AAAACAGG 7887 4920 UGUUUUAUA UAUCCAAU 3744 AUUGGAUA CUGAUGAGGNNNNNNNNCCGAA AUAAAACA 7888 4922 UUUUAUAUA UCCAAUGA 3745 UCAUUGGA CUGAUGAGGNNNNNNNNCCGAA AUAUAAAA 7889 4924 UUAUAUAUC CAAUGAAU 3746 AUUCAUUG CUGAUGAGGNNNNNNNNCCGAA AUAUAUAA 7890 4933 CAAUGAAUA UAACUGGG 3747 CCCAGUUA CUGAUGAGGNNNNNNNNCCGAA AUUCAUUG 7891 4935 AUGAAUAUA ACUGGGGC 3748 GCCCCAGU CUGAUGAGGNNNNNNNNCCGAA AUAUUCAU 7892 4948 GGGCGAGUU AAGAGUCA 3749 UGACUCUU CUGAUGAGGNNNNNNNNCCGAA ACUCGCCC 7893 4949 GGCGAGUUA AGAGUCAU 3750 AUGACUCU CUGAUGAGGNNNNNNNNCCGAA AACUCGCC 7894 4955 UUAAGAGUC AUGGUCUA 3751 UAGACCAU CUGAUGAGGNNNNNNNNCCGAA ACUCUUAA 7895 4961 GUCAUGGUC UAGAAAAG 3752 CUUUUCUA CUGAUGAGGNNNNNNNNCCGAA ACCAUGAC 7896 4963 CAUGGUCUA GAAAAGGG 3753 CCCUUUUC CUGAUGAGGNNNNNNNNCCGAA AGACCAUG 7897 4974 AAAGGGGUU UCUCUGUA 3754 UACAGAGA CUGAUGAGGNNNNNNNNCCGAA ACCCCUUU 7898 4975 AAGGGGUUU CUCUGUAC 3755 GUACAGAG CUGAUGAGGNNNNNNNNCCGAA AACCCCUU 7899 4976 AGGGGUUUC UCUGUACC 3756 GGUACAGA CUGAUGAGGNNNNNNNNCCGAA AAACCCCU 7900 4978 GGGUUUCUC UGUACCCA 3757 UGGGUACA CUGAUGAGGNNNNNNNNCCGAA AGAAACCC 7903 4982 UUCUCUGUA CCCAAAUC 3758 GAUUUGGG CUGAUGAGGNNNNNNNNCCGAA ACAGAGAA 7902 4990 ACCCAAAUC GGGCUGGU 3759 ACCAGCCC CUGAUGAGGNNNNNNNNCCGAA AUUUGGGU 7903 4999 GGGCUGGUU GGACCAAG 3760 CUUGGUCC CUGAUGAGGNNNNNNNNCCGAA ACCAGCCC 7904 5029 AGAGUGGUU GUCCCAGC 3761 GCUGGGAC CUGAUGAGGNNNNNNNNCCGAA ACCACUCU 7905 5032 GUGGUUGUC CCAGCUAU 3762 AUAGCUGG CUGAUGAGGNNNNNNNNCCGAA ACAACCAC 7906 5039 UCCCAGCUA UAGUUACU 3763 AGUAACUA CUGAUGAGGNNNNNNNNCCGAA AGCUGGGA 7907 5041 CCAGCUAUA GUUACUAA 3764 UUAGUAAC CUGAUGAGGNNNNNNNNCCGAA AUAGCUGG 7908 5044 GCUAUAGUU ACUAAACU 3765 AGUUUAGU CUGAUGAGGNNNNNNNNCCGAA ACUAUAGC 7909 5045 CUAUAGUUA CUAAACUA 3766 UAGUUUAG CUGAUGAGGNNNNNNNNCCGAA AACUAUAG 7910 5048 UAGUUACUA AACUACUC 3767 GAGUAGUU CUGAUGAGGNNNNNNNNCCGAA AGUAACUA 7911 5053 ACUAAACUA CUCACCCA 3768 UGGGUGAG CUGAUGAGGNNNNNNNNCCGAA AGUUUAGU 7912 5056 AAACUACUC ACCCAAAG 3769 CUUUGGGU CUGAUGAGGNNNNNNNNCCGAA AGUAGUUU 7913 5066 CCCAAAGUU GGGACCUC 3770 GAGGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUUUGGG 7914 5074 UGGGACCUC ACUGGCUU 3771 AAGCCAGU CUGAUGAGGNNNNNNNNCCGAA AGGUCCCA 7915 5082 CACUGGCUU CUCUUUAC 3772 GUAAAGAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGUG 7916 5083 ACUGGCUUC UCUUUACU 3773 AGUAAAGA CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU 7917 5085 UGGCUUCUC UUUACUUC 3774 GAAGUAAA CUGAUGAGGNNNNNNNNCCGAA AGAAGCCA 7918 5087 GCUUCUCUU UACUUCAU 3775 AUGAAGUA CUGAUGAGGNNNNNNNNCCGAA AGAGAAGC 7919 5088 CUUCUCUUU ACUUCAUC 3776 GAUGAAGU CUGAUGAGGNNNNNNNNCCGAA AAGAGAAG 7920 5089 UUCUCUUUA CUUCAUCA 3777 UGAUGAAG CUGAUGAGGNNNNNNNNCCGAA AAAGAGAA 7921 5092 UCUUUACUU CAUCAUGG 3778 CCAUGAUG CUGAUGAGGNNNNNNNNCCGAA AGUAAAGA 7922 5093 CUUUACUUC AUCAUGGA 3779 UCCAUGAU CUGAUGAGGNNNNNNNNCCGAA AAGUAAAG 7923 5096 UACUUCAUC AUGGAUUU 3780 AAAUCCAU CUGAUGAGGNNNNNNNNCCGAA AUGAAGUA 7924 5103 UCAUGGAUU UCACCAUC 3781 GAUGGUGA CUGAUGAGGNNNNNNNNCCGAA AUCCAUGA 7925 5104 CAUGGAUUU CACCAUCC 3782 GGAUGGUG CUGAUGAGGNNNNNNNNCCGAA AAUCCAUG 7926 5105 AUGGAUUUC ACCAUCCC 3783 GGGAUGGU CUGAUGAGGNNNNNNNNCCGAA AAAUCCAU 7927 5111 UUCACCAUC CCAAGGCA 3784 UGCCUUGG CUGAUGAGGNNNNNNNNCCGAA AUGGUGAA 7928 5122 AAGGCAGUC UGAGAGGA 3785 UCCUCUCA CUGAUGAGGNNNNNNNNCCGAA ACUGCCUU 7929 5134 GAGGAGCUA AAGAGUAU 3786 AUACUCUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCUC 7930 5141 UAAAGAGUA UCAGCCCA 3787 UGGGCUGA CUGAUGAGGNNNNNNNNCCGAA ACUCUUUA 7931 5143 AAGAGUAUC AGCCCAUA 3788 UAUGGGCU CUGAUGAGGNNNNNNNNCCGAA AUACUCUU 7932 5151 CAGCCCAUA UUUAUUAA 3789 UUAAUAAA CUGAUGAGGNNNNNNNNCCGAA AUGGGCUG 7933 5153 GCCCAUAUU UAUUAAGC 3790 GCUUAAUA CUGAUGAGGNNNNNNNNCCGAA AUAUGGGC 7934 5154 CCCAUAUUU AUUAAGCA 3791 UGCUUAAU CUGAUGAGGNNNNNNNNCCGAA AAUAUGGG 7935 5155 CCAUAUUUA UUAAGCAC 3792 GUGCUUAA CUGAUGAGGNNNNNNNNCCGAA AAAUAUGG 7936 5157 AUAUUUAUU AAGCACUU 3793 AAGUGCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU 7937 5158 UAUUUAUUA AGCACUUU 3794 AAAGUGCU CUGAUGAGGNNNNNNNNCCGAA AAUAAAUA 7938 5165 UAAGCACUU UAUGCUCC 3795 GGAGCAUA CUGAUGAGGNNNNNNNNCCGAA AGUGCUUA 7939 5166 AAGCACUUU AUGCUCCU 3796 AGGAGCAU CUGAUGAGGNNNNNNNNCCGAA AAGUGCUU 7940 5167 AGCACUUUA UGCUCCUU 3797 AAGGAGCA CUGAUGAGGNNNNNNNNCCGAA AAAGUGCU 7941 5172 UUUAUGCUC CUUGGCAC 3798 GUGCCAAG CUGAUGAGGNNNNNNNNCCGAA AGCAUAAA 7942 5175 AUGCUCCUU GGCACAGC 3799 GCUGUGCC CUGAUGAGGNNNNNNNNCCGAA AGGAGCAU 7943 5195 UGAUGUGUA AUUUAUGC 3800 GCAUAAAU CUGAUGAGGNNNNNNNNCCGAA ACACAUCA 7944 5198 UGUGUAAUU UAUGCAAG 3801 CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUUACACA 7945 5199 GUGUAAUUU AUGCAAGC 3802 GCUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUUACAC 7946 5200 UGUAAUUUA UGCAAGCU 3803 AGCUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUUACA 7947 5209 UGCAAGCUC CCUCUCCA 3804 UGGAGAGG CUGAUGAGGNNNNNNNNCCGAA AGCUUGCA 7948 5213 AGCUCCCUC UCCAGCUA 3805 UAGCUGGA CUGAUGAGGNNNNNNNNCCGAA AGGGAGCU 7949 5215 CUCCCUCUC CAGCUAGG 3806 CCUAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAGGGAG 7950 5221 CUCCAGCUA GGACUCAG 3807 CUGAGUCC CUGAUGAGGNNNNNNNNCCGAA AGCUGGAG 7951 5227 CUAGGACUC AGGAUAUU 3808 AAUAUCCU CUGAUGAGGNNNNNNNNCCGAA AGUCCUAG 7952 5233 CUCAGGAUA UUAGUCAA 3809 UUGACUAA CUGAUGAGGNNNNNNNNCCGAA AUCCUGAG 7953 5235 CAGGAUAUU AGUCAAUG 3810 CAUUGACU CUGAUGAGGNNNNNNNNCCGAA AUAUCCUG 7954 5236 AGGAUAUUA GUCAAUGA 3811 UCAUUGAC CUGAUGAGGNNNNNNNNCCGAA AAUAUCCU 7955 5239 AUAUUAGUC AAUGAGCC 3812 GGCUCAUU CUGAUGAGGNNNNNNNNCCGAA ACUAAUAU 5095 5250 UGAGCCAUC AAAAGGAA 3813 UUCCUUUU CUGAUGAGGNNNNNNNNCCGAA AUGGCUCA 7956 5273 AAAAACCUA UCUUAUUU 3814 AAAUAAGA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU 7957 5275 AAACCUAUC UUAUUUUC 3815 GAAAAUAA CUGAUGAGGNNNNNNNNCCGAA AUAGGUUU 7958 5277 ACCUAUCUU AUUUUCAU 3816 AUGAAAAU CUGAUGAGGNNNNNNNNCCGAA AGAUAGGU 7959 5278 CCUAUCUUA UUUUCAUC 3817 GAUGAAAA CUGAUGAGGNNNNNNNNCCGAA AAGAUAGG 7960 5280 UAUCUUAUU UUCAUCUG 3818 CAGAUGAA CUGAUGAGGNNNNNNNNCCGAA AUAAGAUA 7961 5281 AUCUUAUUU UCAUCUGU 3819 ACAGAUGA CUGAUGAGGNNNNNNNNCCGAA AAUAAGAU 7962 5282 UCUUAUUUU CAUCUGUU 3820 AACAGAUG CUGAUGAGGNNNNNNNNCCGAA AAAUAAGA 7963 5283 CUUAUUUUC AUCUGUUU 3821 AAACAGAU CUGAUGAGGNNNNNNNNCCGAA AAAAUAAG 7964 5286 AUUUUCAUC UGUUUCAU 3822 AUGAAACA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU 7965 5290 UCAUCUGUU UCAUACCU 3823 AGGUAUGA CUGAUGAGGNNNNNNNNCCGAA ACAGAUGA 7966 5291 CAUCUGUUU CAUACCUU 3824 AAGGUAUG CUGAUGAGGNNNNNNNNCCGAA AACAGAUG 7967 5292 AUCUGUUUC AUACCUUG 3825 CAAGGUAU CUGAUGAGGNNNNNNNNCCGAA AAACAGAU 7968 5295 UGUUUCAUA CCUUGUCU 3826 AGACAAGG CUGAUGAGGNNNNNNNNCCGAA AUGAAACA 7969 5299 UCAUACCUU GUCUGGGG 3827 CCCCAGAC CUGAUGAGGNNNNNNNNCCGAA AGGUAUGA 7970 5302 UACCUUGUC UGGGGUCU 3828 AGACCCCA CUGAUGAGGNNNNNNNNCCGAA ACAAGGUA 7971 5309 UCUGGGGUC UAAUGACG 3829 CGUCAUUA CUGAUGAGGNNNNNNNNCCGAA ACCCCAGA 7972 5311 UGGGGUCUA AUGACGAU 3830 AUCGUCAU CUGAUGAGGNNNNNNNNCCGAA AGACCCCA 7973 5331 AACAGGGUA GACAUGGG 3831 CCCAUGUC CUGAUGAGGNNNNNNNNCCGAA ACCCUGUU 7974 5350 GACAGGGUA GAAAAGGG 3832 CCCUUUUC CUGAUGAGGNNNNNNNNCCGAA ACCCUGUC 7975 5367 UGCCCGCUC UUUGGGGU 3833 ACCCCAAA CUGAUGAGGNNNNNNNNCCGAA AGCGGGCA 7976 5369 CCCGCUCUU UGGGGUCU 3834 AGACCCCA CUGAUGAGGNNNNNNNNCCGAA AGAGCGGG 7977 5370 CCGCUCUUU GGGGUCUA 3835 UAGACCCC CUGAUGAGGNNNNNNNNCCGAA AAGAGCGG 7978 5376 UUUGGGGUC UAGAGAUG 3836 CAUCUCUA CUGAUGAGGNNNNNNNNCCGAA ACCCCAAA 7979 5378 UGGGGUCUA GAGAUGAG 3837 CUCAUCUC CUGAUGAGGNNNNNNNNCCGAA AGACCCCA 7980 5395 CCCUGGGUC UCUAAAAU 3838 AUUUUAGA CUGAUGAGGNNNNNNNNCCGAA ACCCAGGG 7981 5397 CUGGGUCUC UAAAAUGG 3839 CCAUUUUA CUGAUGAGGNNNNNNNNCCGAA AGACCCAG 7982 5399 GGGUCUCUA AAAUGGCU 3840 AGCCAUUU CUGAUGAGGNNNNNNNNCCGAA AGAGACCC 7983 5408 AAAUGGCUC UCUUAGAA 3841 UUCUAAGA CUGAUGAGGNNNNNNNNCCGAA AGCCAUUU 7984 5410 AUGGCUCUC UUAGAAGU 3842 ACUUCUAA CUGAUGAGGNNNNNNNNCCGAA AGAGCCAU 7985 5412 GGCUCUCUU AGAAGUUG 3843 CAACUUCU CUGAUGAGGNNNNNNNNCCGAA AGAGAGCC 7986 5413 GCUCUCUUA GAAGUUGU 3844 ACAACUUC CUGAUGAGGNNNNNNNNCCGAA AAGAGAGC 7987 5419 UUAGAAGUU GUAUGUGC 3845 GCACAUAC CUGAUGAGGNNNNNNNNCCGAA ACUUCUAA 7988 5422 GAAGUUGUA UGUGCAAA 3846 UUUGCACA CUGAUGAGGNNNNNNNNCCGAA ACAACUUC 7989 5432 GUGCAAAUU AUGGUCUG 3847 CAGACCAU CUGAUGAGGNNNNNNNNCCGAA AUUUGCAC 7990 5433 UGCAAAUUA UGGUCUGU 3848 ACAGACCA CUGAUGAGGNNNNNNNNCCGAA AAUUUGCA 7991 5438 AUUAUGGUC UGUGUGCU 3849 AGCACACA CUGAUGAGGNNNNNNNNCCGAA ACCAUAAU 7992 5447 UGUGUGCUU AGGUGGUG 3850 CACGACCU CUGAUGAGGNNNNNNNNCCGAA AGGACACA 7993 5448 GUGUGCUUA GGUCGUGC 3851 GCACGACC CUGAUGAGGNNNNNNNNCCGAA AAGCACAC 7994 5452 GCUUAGGUC GUGCACAC 3852 GUGUGCAC CUGAUGAGGNNNNNNNNCCGAA ACCUAAGC 7995 5475 GAGCCGGUC ACAGCUGG 3853 CCAGCUGU CUGAUGAGGNNNNNNNNCCGAA ACCGGCUC 7996 5497 CGAUGAAUA GCUGCUUU 3854 AAAGCAGC CUGAUGAGGNNNNNNNNCCGAA AUUCAUCG 7997 5504 UAGCUGCUU UGGGAGAG 3855 CUCUCCCA CUGAUGAGGNNNNNNNNCCGAA AGCAGCUA 7998 5505 AGCUGCUUU GGGAGAGC 3856 GCUCUCCC CUGAUGAGGNNNNNNNNCCGAA AAGCAGCU 7999 5524 AGCAUGCUA GCCACUUA 3857 UAAGUGGC CUGAUGAGGNNNNNNNNCCGAA AGCAUGCU 8000 5531 UAGCCACUU AAUUCUCU 3858 AGAGAAUU CUGAUGAGGNNNNNNNNCCGAA AGUGGCUA 8001 5532 AGCCACUUA AUUCUCUG 3859 CAGAGAAU CUGAUGAGGNNNNNNNNCCGAA AAGUGGCU 8002 5535 CACUUAAUU CUCUGACC 3860 GGUCAGAG CUGAUGAGGNNNNNNNNCCGAA AUUAAGUG 8003 5536 ACUUAAUUC UCUGACCG 3861 CGGUCAGA CUGAUGAGGNNNNNNNNCCGAA AAUUAAGU 8004 5538 UUAAUUCUC UGACCGGG 3862 CCCGGUCA CUGAUGAGGNNNNNNNNCCGAA AGAAUUAA 8005 5554 GCCAGCAUC AUGGGUAC 3863 GUACCCAU CUGAUGAGGNNNNNNNNCCGAA AUGCUGGC 8006 5561 UCAUGGGUA CCUGCUCC 3864 GGAGCAGG CUGAUGAGGNNNNNNNNCCGAA ACCCAUGA 8007 5568 UACCUGCUC CCCUGUGU 3865 ACACAGGG CUGAUGAGGNNNNNNNNCCGAA AGCAGGUA 8008 5577 CCCUGUGUA CCCCAUCC 3866 GGAUGGGG CUGAUGAGGNNNNNNNNCCGAA ACACAGGG 8009 5584 UACCCCAUC CUUAAGGU 3867 ACCUUAAG CUGAUGAGGNNNNNNNNCCGAA AUGGGGUA 8010 5587 CCCAUCCUU AAGGUUUU 3868 AAAACCUU CUGAUGAGGNNNNNNNNCCGAA AGGAUGGG 8011 5588 CCAUCCUUA AGGUUUUC 3869 GAAAACCU CUGAUGAGGNNNNNNNNCCGAA AAGGAUGG 8012 5593 CUUAAGGUU UUCUGUCU 3870 AGACAGAA CUGAUGAGGNNNNNNNNCCGAA ACCUUAAG 8013 5594 UUAAGGUUU UCUGUCUG 3871 CAGACAGA CUGAUGAGGNNNNNNNNCCGAA AACCUUAA 8014 5595 UAAGGUUUU CUGUCUGA 3872 UCAGACAG CUGAUGAGGNNNNNNNNCCGAA AAACCUUA 8015 5596 AAGGUUUUC UGUCUGAU 3873 AUCAGACA CUGAUGAGGNNNNNNNNCCGAA AAAACCUU 8016 5600 UUUUCUGUC UGAUGAGA 3874 UCUCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAAAA 8017 5627 AGUGCAAUC CCCACUGA 3875 UCAGUGGG CUGAUGAGGNNNNNNNNCCGAA AUUGCACU 8018 5660 CUGUGGCUC UUGGUGCA 3876 UGCACCAA CUGAUGAGGNNNNNNNNCCGAA AGCCACAG 8019 5662 GUGGCUCUU GGUGCACU 3877 AGUGCACC CUGAUGAGGNNNNNNNNCCGAA AGAGCCAC 8020 5671 GGUGCACUC ACCAGCCA 3878 UGGCUGGU CUGAUGAGGNNNNNNNNCCGAA AGUGCACC 8021 5685 CCAGGACUA GACAAGUA 3879 UACUUGUC CUGAUGAGGNNNNNNNNCCGAA AGUCCUGG 8022 5693 AGACAAGUA GGAAAGGG 3880 CCCUUUCC CUGAUGAGGNNNNNNNNCCGAA ACUUGUCU 8023 5704 AAAGGGCUU CUAGCCAC 3881 GUGGCUAG CUGAUGAGGNNNNNNNNCCGAA AGCCCUUU 8024 5705 AAGGGCUUC UAGCCACA 3882 UGUGGCUA CUGAUGAGGNNNNNNNNCCGAA AAGCCCUU 8025 5707 GGGCUUCUA GCCACACU 3883 AGUGUGGC CUGAUGAGGNNNNNNNNCCGAA AGAAGCCC 8026 5731 AAGAAAAUC AGGUAGGG 3884 CCCUACCU CUGAUGAGGNNNNNNNNCCGAA AUUUUCUU 8027 5736 AAUCAGGUA GGGCUGGC 3885 GCCAGCCC CUGAUGAGGNNNNNNNNCCGAA ACCUGAUU 8028 5754 AAAGACAUC UUUGUCCA 3886 UGGACAAA CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU 8029 5756 AGACAUCUU UGUCCAUU 3887 AAUGGACA CUGAUGAGGNNNNNNNNCCGAA AGAUGUCU 8030 5757 GACAUCUUU GUCCAUUC 3888 GAAUGGAC CUGAUGAGGNNNNNNNNCCGAA AAGAUGUC 8031 5760 AUCUUUGUC CAUUCGCA 3889 UGCGAAUG CUGAUGAGGNNNNNNNNCCGAA ACAAAGAU 8032 5764 UUGUCCAUU CGCAAAAG 3890 CUUUUGCG CUGAUGAGGNNNNNNNNCCGAA AUGGACAA 8033 5765 UGUCCAUUC GCAAAAGC 3891 GCUUUUGC CUGAUGAGGNNNNNNNNCCGAA AAUGGACA 8034 5775 CAAAAGCUC UUGUCGGC 3892 GCCGACAA CUGAUGAGGNNNNNNNNCCGAA AGCUUUUG 8035 5777 AAAGCUCUU GUCGGCUG 3893 CAGCCGAC CUGAUGAGGNNNNNNNNCCGAA AGAGCUUU 8036 5780 GCUCUUGUC GGCUGCAG 3894 CUGCAGCC CUGAUGAGGNNNNNNNNCCGAA ACAAGAGC 8037 5794 CAGUGUGUA AGUCAGGC 3895 GCCUGACU CUGAUGAGGNNNNNNNNCCGAA ACACACUG 8038 5798 GUGUAAGUC AGGCGAUG 3896 CAUCGCCU CUGAUGAGGNNNNNNNNCCGAA ACUUACAC 8039 5818 CAGAGGCUA CCAGAGAA 3897 UUCUCUGG CUGAUGAGGNNNNNNNNCCGAA AGCCUCUG 8040 5852 CCUGAGGUU UCUCAUCC 3898 GGAUGAGA CUGAUGAGGNNNNNNNNCCGAA ACCUCAGG 8041 5853 CUGAGGUUU CUCAUCCA 3899 UGGAUGAG CUGAUGAGGNNNNNNNNCCGAA AACCUCAG 8042 5854 UGAGGUUUC UCAUCCAG 3900 CUGGAUGA CUGAUGAGGNNNNNNNNCCGAA AAACCUCA 8043 5856 AGGUUUCUC AUCCAGAU 3901 AUCUGGAU CUGAUGAGGNNNNNNNNCCGAA AGAAACCU 8044 5859 UUUCUCAUC CAGAUAUC 3902 GAUAUCUG CUGAUGAGGNNNNNNNNCCGAA AUGAGAAA 8045 5865 AUCCAGAUA UCCAGCAA 3903 UUGCUGGA CUGAUGAGGNNNNNNNNCCGAA AUCUGGAU 8046 5867 CCAGAUAUC CAGCAAUU 3904 AAUUGCUG CUGAUGAGGNNNNNNNNCCGAA AUAUCUGG 8047 5875 CCAGCAAUU GGGGGGUG 3905 CACCCCCC CUGAUGAGGNNNNNNNNCCGAA AUUGCUGG 8048 5896 AAGACCAUA GAUGGUCC 3906 GGACCAUC CUGAUGAGGNNNNNNNNCCGAA AUGGUCUU 8049 5903 UAGAUGGUC CUGUAUUA 3907 UAAUACAG CUGAUGAGGNNNNNNNNCCGAA ACCAUCUA 8050 5908 GGUCCUGUA UUAUUCCG 3908 CGGAAUAA CUGAUGAGGNNNNNNNNCCGAA ACAGGACC 8051 5910 UCCUGUAUU AUUCCGAU 3909 AUCGGAAU CUGAUGAGGNNNNNNNNCCGAA AUACAGGA 8052 5911 CCUGUAUUA UUCCGAUU 3910 AAUCGGAA CUGAUGAGGNNNNNNNNCCGAA AAUACAGG 8053 5913 UGUAUUAUU CCGAUUUU 3911 AAAAUCGG CUGAUGAGGNNNNNNNNCCGAA AUAAUACA 8054 5914 GUAUUAUUC CGAUUUUA 3912 UAAAAUCG CUGAUGAGGNNNNNNNNCCGAA AAUAAUAC 8055 5919 AUUCCGAUU UUAAUAAU 3913 AUUAUUAA CUGAUGAGGNNNNNNNNCCGAA AUCGGAAU 8056 5920 UUCCGAUUU UAAUAAUC 3914 GAUUAUUA CUGAUGAGGNNNNNNNNCCGAA AAUCGGAA 8057 5921 UCCGAUUUU AAUAAUCU 3915 AGAUUAUU CUGAUGAGGNNNNNNNNCCGAA AAAUCGGA 8058 5922 CCGAUUUUA AUAAUCUA 3916 UAGAUUAU CUGAUGAGGNNNNNNNNCCGAA AAAAUCGG 8059 5925 AUUUUAAUA AUCUAAUU 3917 AAUUAGAU CUGAUGAGGNNNNNNNNCCGAA AUUAAAAU 8060 5928 UUAAUAAUC UAAUUCGU 3918 ACGAAUUA CUGAUGAGGNNNNNNNNCCGAA AUUAUUAA 8061 5930 AAUAAUCUA AUUCGUGA 3919 UCACGAAU CUGAUGAGGNNNNNNNNCCGAA AGAUUAUU 8062 5933 AAUCUAAUU CGUGAUCA 3920 UGAUCACG CUGAUGAGGNNNNNNNNCCGAA AUUAGAUU 8063 5934 AUCUAAUUC GUGAUCAU 3921 AUGAUCAC CUGAUGAGGNNNNNNNNCCGAA AAUUAGAU 8064 5940 UUCGUGAUC AUUAAGAG 3922 CUCUUAAU CUGAUGAGGNNNNNNNNCCGAA AUCACGAA 8065 5943 GUGAUCAUU AAGAGACU 3923 AGUCUCUU CUGAUGAGGNNNNNNNNCCGAA AUGAUCAC 8066 5944 UGAUCAUUA AGAGACUU 3924 AAGUCUCU CUGAUGAGGNNNNNNNNCCGAA AAUGAUCA 8067 5952 AAGAGACUU UAGUAAAU 3925 AUUUACUA CUGAUGAGGNNNNNNNNCCGAA AGUCUCUU 8068 5953 AGAGACUUU AGUAAAUG 3926 CAUUUACU CUGAUGAGGNNNNNNNNCCGAA AAGUCUCU 8069 5954 GAGACUUUA GUAAAUGU 3927 ACAUUUAC CUGAUGAGGNNNNNNNNCCGAA AAAGUCUC 8070 5957 ACUUUAGUA AAUGUCCC 3928 GGGACAUU CUGAUGAGGNNNNNNNNCCGAA ACUAAAGU 8071 5963 GUAAAUGUC CCUUUUCC 3929 GGAAAAGG CUGAUGAGGNNNNNNNNCCGAA ACAUUUAC 8072 5967 AUGUCCCUU UUCCCACA 3930 UGUGGGAA CUGAUGAGGNNNNNNNNCCGAA AGGGACAU 8073 5968 UGUCCCUUU UCCCACAA 3931 UUGUGGGA CUGAUGAGGNNNNNNNNCCGAA AAGGGACA 8074 5969 GUCCCUUUU CCCACAAA 3932 UUUGUGGG CUGAUGAGGNNNNNNNNCCGAA AAAGGGAC 8075 5970 UCCCUUUUC CCACAAAA 3933 UUUUGUGG CUGAUGAGGNNNNNNNNCCGAA AAAAGGGA 8076 5981 ACAAAAGUA AAGAAAAG 3934 CUUUUCUU CUGAUGAGGNNNNNNNNCCGAA ACUUUUGU 8077 5992 GAAAAGCUA UCGGGAUU 3935 AAUCCCGA CUGAUGAGGNNNNNNNNCCGAA AGCUUUUC 8078 5994 AAAGCUAUC GGGAUUCU 3936 AGAAUCCC CUGAUGAGGNNNNNNNNCCGAA AUAGCUUU 8079 6000 AUCGGGAUU CUCUGGUU 3937 AACCAGAG CUGAUGAGGNNNNNNNNCCGAA AUCCCGAU 8080 6001 UCGGGAUUC UCUGGUUC 3938 GAACCAGA CUGAUGAGGNNNNNNNNCCGAA AAUCCCGA 8081 6003 GGGAUUCUC UGGUUCUG 3939 CAGAACCA CUGAUGAGGNNNNNNNNCCGAA AGAAUCCC 8082 6008 UCUCUGGUU CUGCUUAA 3940 UUAAGCAG CUGAUGAGGNNNNNNNNCCGAA ACCAGAGA 8083 6009 CUCUGGUUC UGCUUAAA 3941 UUUAAGCA CUGAUGAGGNNNNNNNNCCGAA AACCAGAG 8084 6014 GUUCUGCUU AAAGACUU 3942 AAGUCUUU CUGAUGAGGNNNNNNNNCCGAA AGCAGAAC 8085 6015 UUCUGCUUA AAGACUUA 3943 UAAGUCUU CUGAUGAGGNNNNNNNNCCGAA AAGCAGAA 8086 6022 UAAAGACUU AGCUUUGG 3944 CCAAAGCU CUGAUGAGGNNNNNNNNCCGAA AGUCUUUA 8087 6023 AAAGACUUA GCUUUGGA 3945 UCCAAAGC CUGAUGAGGNNNNNNNNCCGAA AAGUCUUU 8088 6027 ACUUAGCUU UGGAGCCU 3946 AGGCUCCA CUGAUGAGGNNNNNNNNCCGAA AGCUAAGU 8089 6028 CUUAGCUUU GGAGCCUA 3947 UAGGCUCC CUGAUGAGGNNNNNNNNCCGAA AAGCUAAG 8090 6036 UGGAGCCUA UGAAAGUU 3948 AACUUUCA CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA 8091 6044 AUGAAAGUU GAUCAGCC 3949 GGCUGAUC CUGAUGAGGNNNNNNNNCCGAA ACUUUCAU 8092 The length of stem II may be ≧2 base-pairs. Underlined region can be any N sequence or linker, as described herein.

TABLE IX Mouse flt1 VEGF Receptor-Hairpin Ribozyme and Substrate Sequence Seq Seq ID ID Pos Substrate No HP Ribozyme No 33 AUGGUCA GCU GCUGGGAC 3950 GUCCCAGC AGAA GACCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8093 36 GUCAGCU GCU GGGACACC 3952 GGUGUCCC AGAA GCUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8094 50 CACCGCG GUC UUGCCUUA 3952 UAAGGCAA AGAA GCGGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8095 67 ACGCGCU GCU CGGGUGUC 3953 GACACCCG AGAA GCGCGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8096 79 GGUGUCU GCU UCUCACAG 3954 CUGUGAGA AGAA GACACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8097 166 CAGGCCA GAC UCUCUUUC 3955 GAAAGAGA AGAA GGCCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8098 197 GGAGGCA GCC CACUCAUG 3956 CAUGAGUG AGAA GCCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8099 214 GGUCUCU GCC CACGACCG 3957 CGGUCGUG AGAA GAGACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8100 266 CCCAUCG GCC UGUGGGAG 3958 CUCCCACA AGAA GAUGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8101 487 GAAGACA GCU CAUCAUCC 3959 GGAUGAUG AGAA GUCUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8102 501 AUCCCCU GCC GGGUGACG 3960 CGUCACCC AGAA GGGGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8103 566 UACCCCU GAU GGGCAAAG 3961 CUUUGCCC AGAA GGGGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8104 640 UAGGACU GCU GAACUGCG 3962 CGCAGUUC AGAA GUCCUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8105 691 ACUAUCU GAC CCAUCGGC 3963 GCCGAUGG AGAA GAUAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8106 703 AUCGGCA GAC CAAUACAA 3964 UUGUAUUG AGAA GCCGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8107 736 UACGCCC GCC GAGCCCAG 3965 CUGGGCUC AGAA GGCGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8108 754 UGAGACU GCU CCACGGGC 3966 GCCCGUGG AGAA GUCUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8109 766 ACGGGCA GAC UCUUGUCC 3967 GGACAAGA AGAA GCCCGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8110 871 GGCAGCG GAU UGACCGGA 3968 UCCGGUCA AGAA GCUGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8111 960 UACACCU GUC GCGUGAAG 3969 CUUCACGC AGAA GGUGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8112 988 CGUUCCA GUC UUUCAACA 3970 UGUUGAAA AGAA GGAACG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8113 1051 GGAAGCA GCC GGUGCAGG 3971 CCUGCACC AGAA GCUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8114 1081 GAAGACG GUC CUAUCGGC 3972 GCCGAUAG AGAA GUCUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8115 1090 CCUAUCG GCU GUCCAUGA 3973 UCAUGGAC AGAA GAUAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8116 1093 AUCGGCU GUC CAUGAAAG 3974 CUUUCAUG AGAA GCCGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8117 1169 GAAGUCU GCU CGCUAUUU 3975 AAAUAGCG AGAA GACUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8118 1315 AACCUCA GAU CUACGAAA 3976 UUUCGUAG AGAA GAGGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8119 1363 UCUAUCC GCU GGGCAGCA 3977 UGCUGCCC AGAA GAUAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8120 1604 GGUGGCU GAC UCUCAGAC 3978 GUCUGAGA AGAA GCCACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8121 1612 ACUCUCA GAC CCCUGGAA 3979 UUCCAGGG AGAA GAGAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8122 1629 AUCUACA GCU GCCGGGCC 3980 GGCCCGGC AGAA GUAGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8123 1632 UACAGCU GCC GGGCCUUC 3981 GAAGGCCC AGAA GCUGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8124 1688 UGUCACA GAU GUGCCGAA 3982 UUCGGCAC AGAA GUGACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8125 1730 GAUGCCA GCC GAAGGAGA 3983 UCUCCUUC AGAA GGCAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8126 1753 UGAAACU GUC CUGUGUGG 3984 CCACACAG AGAA GUUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8127 2017 CACACCU GCU UCAAAACC 3985 GGUUUUGA AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8128 2101 CGCCUCA GAU CACUUGGU 3986 ACCAAGUG AGAA GAGGCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8129 2176 GCACGCU GUU UAUUGAAA 1441 UUUCAAUA AGAA GCGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5597 2258 AAGCGCA GCC UACCUCAC 3987 GUGAGGUA AGAA GCGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8130 2305 UGGAGCU GAU CACGCUCA 3988 UGAGCGUG AGAA GCUCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8131 2383 UGAAGCG GUC UUCUUCCG 3989 CGGAAGAA AGAA GCUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8132 2405 AAAGACA GAC UACCUGUC 3990 GACAGGUA AGAA GUCUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8133 2432 GGACCCA GAU GAAGUUCC 1445 GGAACUUC AGAA GGGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5601 2464 GUGAACG GCU GCCCUAUG 3991 CAUAGGGC AGAA GUUCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8134 2467 AACGGCU GCC CUAUGAUG 3992 CAUCAUAG AGAA GCCGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8135 2592 CCCACCU GCC GGACUGUG 3993 CACAGUCC AGAA GGUGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8136 2596 CCUGCCG GAC UGUGGCUG 3994 CAGCCACA AGAA GGCAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8137 2653 AAGCUCU GAU GACCGAAC 3995 GUUCGGUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8138 2743 GGCCUCU GAU GGUGAUCG 3996 CGAUCACC AGAA GAGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8139 2779 GAAACCU GUC CAACUACC 3997 GGUAGUUG AGAA GGUUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8140 2814 UUAUUCU GUC UCAACAAG 3998 CUUGUUGA AGAA GAAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8141 2831 GGACGCA GCC UUGCAUAU 3999 AUAUGCAA AGAA GCGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8142 2895 AAGCCCC GCC UAGACAGU 4000 ACUGUCUA AGAA GGGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8143 2913 GUCAGCA GCU CAAGUGUC 4001 GACACUUG AGAA GCUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8144 2928 GUCACCA GCU CCAGCUUC 4002 GAAGCUGG AGAA GGUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8145 2934 AGCUCCA GCU UCCCUGAA 4003 UUCAGGGA AGAA GGAGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8146 3001 CCAAGCA GCC CCUCACCA 4004 UGGUGAGG AGAA GCUUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8147 3022 AAGACCU GAU UUCCUACA 4005 UGUAGGAA AGAA GGUCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8148 3033 UCCUACA GUU UCCAAGUG 4006 CACUUGGA AGAA GUAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8149 3064 AGUUUCU GUC CUCCAGAA 4007 UUCUGGAG AGAA GAAACU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8150 3179 GAACCCU GAU UAUGUGAG 4008 CUCACAUA AGAA GGGUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 5613 3357 UUCUGCA GCC GCCUGAAG 4009 CUUCAGGC AGAA GCAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8151 3360 UGCAGCC GCC UGAAGGAA 4010 UUCCUUCA AGAA GCUGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8152 3379 GCAUGCG GAU GAGAACCC 4011 GGGUUCUC AGAA GCAUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8153 3463 GGCCCCG GUU UGCUGAAC 4012 GUUCAGCA AGAA GGGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8154 3496 GUGACCU GCU UCAAGCCA 4013 UGGCUUGA AGAA GGUCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8155 3553 CCAUACU GAC UAGAAACA 4014 UGUUUCUA AGAA GUAUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8156 3615 AAGGACG GCU UUGCAGAU 4015 AUCUGCAA AGAA GUCCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8157 3623 CUUUGCA GAU CCACAUUU 4016 AAAUGUGG AGAA GCAAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8158 3650 AAGCUCU GAU GAUGUGAG 4017 CUCACAUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8159 3754 ACUAUCA GCU GGACACUA 4018 UAGUGUCC AGAA GAUAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8160 3772 GCACUCU GCU GGGCUCCC 4019 GGGAGCCC AGAA GAGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8161 3796 UGAAGCG GUU CACCUGGA 4020 UCCAGGUG AGAA GCUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8162 3881 ACUUUCC GAU CUGCCGAG 4021 CUCGGCAG AGAA GAAAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8163 3886 CCGAUCU GCC GAGGCCCA 4022 UGGGCCUC AGAA GAUCGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8164 3897 AGGCCCA GCU UCUGCUUC 4023 GAAGCAGA AGAA GGGCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8165 3903 AGCUUCU GCU UCUCCAGC 4024 GCUGGAGA AGAA GAAGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8166 3912 UUCUCCA GCU GUGGCCAC 4025 GUGGCCAC AGAA GGAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8167 3969 GAGUCCU GCU GUUCUCCA 4026 UGGAGAAC AGAA GGACUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8168 3972 UCCUGCU GUU CUCCACCC 4027 GGGUGGAG AGAA GCAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8169 3986 ACCCCCA GAC UACAACUC 4028 GAGUUGUA AGAA GGGGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8170 4018 CCUCCCC GCC CGCCUAAA 4029 UUUAGGCG AGAA GGGAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8171 4022 CCCGCCC GCC UAAAGCUU 4030 AAGCUUUA AGAA GGCGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8172 4040 CUCACCA GCC CCGACAAC 4031 GUUGUCGG AGAA GGUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8173 4053 ACAACCA GCC CCUGACAG 4032 CUGUCAGG AGAA GGUUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8174 4095 CUAUUCC GCU CCACAGGA 4033 UCCUGUGG AGAA GAAUAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8175 4110 GGAGCCA GCU GCUUUUCG 4034 CGAAAAGC AGAA GGCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8176 4113 GCCAGCU GCU UUUCGUGA 4035 UCACGAAA AGAA GCUGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8177 4168 UGUUGCU GUU UUGACUAA 4036 UUAGUCAA AGAA GCAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8178 4290 GGCGACC GCC CGCCCACC 4037 GGUGGGCG AGAA GUCGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8179 4294 ACCGCCC GCC CACCGGCC 4038 GGCCGGUG AGAA GGCGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8180 4329 CCCUGCA GCU GUGGGACU 4039 AGUCCCAC AGAA GCAGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8181 4378 AUGCACU GAC CUGCUCUG 4040 CAGAGCAG AGAA GUGCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8182 4383 CUGACCU GCU CUGUCUCU 4041 AGAGACAG AGAA GGUCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8183 4388 CUGCUCU GUC UCUCUUAU 4042 AUAAGAGA AGAA GAGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8184 4457 UGCGUCC GUC CUGUGGAG 4043 CUCCACAG AGAA GACGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8185 4525 GGCCUCC GCU GUUUCGGG 4044 CCCGAAAC AGAA GAGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8186 4528 CUCCGCU GUU UCGGGCCC 4045 GGGCCCGA AGAA GCGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8187 4643 GUCUUCU GUU GUCUGUUU 4046 AAACAGAC AGAA GAAGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8188 4650 GUUGUCU GUU UACCAUCC 4047 GGAUGGUA AGAA GACAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8189 4724 AUCAUCA GUU CCUCUAGU 4048 ACUAGAGG AGAA GAUGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8190 4771 CAGGCCU GAC CUUCGCAU 4049 AUGCGAAG AGAA GGCCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8191 4785 GCAUACU GCU CACGGGGA 4050 UCCCCGUG AGAA GUAUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8192 4809 UGGUCCA GUU UGGCCUAG 4051 CUAGGCCA AGAA GGACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8193 4834 GCCUACU GAU GGGCUCAA 4052 UUGAGCCC AGAA GUAGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8194 4912 UUAUCCU GUU UUAUAUAU 4053 AUAUAUAA AGAA GGAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8195 5119 CAAGGCA GUC UGAGAGGA 4054 UCCUCUCA AGAA GCCUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8196 5144 AGUAUCA GCC CAUAUUUA 4055 UAAAUAUG AGAA GAUACU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8197 5287 UUCAUCU GUU UCAUACCU 4056 AGGUAUGA AGAA GAUGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8198 5363 GGUGCCC GCU CUUUGGGG 4057 CCCCAAAG AGAA GGCACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8199 5462 CACACCU GCC GGAGCCGG 4058 CCGGCUCC AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8200 5478 GGUCACA GCU GGGCAGAC 4059 GUCUGCCC AGAA GUGACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8201 5486 CUGGGCA GAC GAUGAAUA 4060 UAUUCAUC AGAA GCCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8202 5500 AAUAGCU GCU UUGGGAGA 4061 UCUCCCAA AGAA GCUAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8203 5539 AUUCUCU GAC CGGGCCAG 4062 CUGGCCCG AGAA GAGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8204 5564 GGUACCU GCU CCCCUGUG 4063 CACAGGGG AGAA GGUACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8205 5597 GUUUUCU GUC UGAUGAGA 4064 UCUCAUCA AGAA GAAAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8206 5601 UCUGUCU GAU GAGACUGG 4065 CCAGUCUC AGAA GACAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8207 5639 UGAGACA GCC UGCAGCCC 4066 GGGCUGCA AGAA GUCUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8208 5646 GCCUGCA GCC CACUGUGG 4067 CCACAGUG AGAA GCAGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8209 5781 CUUGUCG GCU GCAGUGUG 4068 CACACUGC AGAA GACAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8210 5829 AGAAACG GAU GAGAACAG 4069 CUGUUCUC AGAA GUUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8211 5842 AACAGCA GCC UGAGGUUU 4070 AAACCUCA AGAA GCUGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8212 5915 UUAUUCC GAU UUUAAUAA 4071 UUAUUAAA AGAA GAAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8213 6010 UGGUUCU GCU UAAAGACU 4072 AGUCUUUA AGAA GAACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 8214

TABLE X Homologous Hammerhead Ribozyme Target Sites Between Human flt-1 and KDR RNA nt. flt-1 Seq nt. KDR Seq Position Target Sequence ID No Position Target Sequence ID No 3388 CCGGGAU A UUUAUAA 4073 3151 CCGGGAU A UUUAUAA 4073 2174 AAUGUAU A CACAGGG 4074 3069 AgUGUAU c CACAGGG 4116 2990 UGCAAAU A UGGAAAU 4075 2756 UGCAAAU u UGGAAAc 4117 2693 CUCCCUU A UGAUGCC 4076 2459 CUgCCUU A UGAUGCC 4118 2981 GUUGAAU A CUGCAAA 4077 2747 GUgGAAU u CUGCAAA 4119 1359 UAUGGUU A AAAGAUG 4078 2097 UgUGGUU u AAAGAUa 4120 3390 GGGAUAU U UAUAAGA 4079 3153 GGGAUAU U UAUAAag 4121 3391 GGAUAUU U AUAAGAA 4080 3154 GGAUAUU U AUAAagA 4122 2925 ACGUGGU U AACCUGC 4081 2691 AuGUGGU c AACCUuC 4123 7140 UAUUUCU A GUCAUGA 4082 2340 UAcUUCU u GUCAUcA 4124 1785 CAAUAAU A GAAGGAA 4083 1515 CucUAAU u GAAGGAA 4125 2731 GAGACUU A AACUGGG 4084 768 uuGACUU c AACUGGG 4126 3974 GAUGACU A CCAGGGC 4085 1466 GAgGACU u CCAGGGa 4127 6590 UUAAUGU A GAAAGAA 4086 2603 aaAAUGU u GAAAGAA 4128 6705 GCCAUUU A UGACAAA 4087 3227 aCaAUUU u UGACAgA 4129 974 GUCAAAU U ACUUAGA 4088 147 uUCAAAU U ACUUgcA 4130 1872 AUAAAGU U GGGACUG 4089 1602 AcAAAGU c GGGAgaG 4131 2333 ACUUGGU U UAAAAAC 4090 1088 AaaUGGU a UAAAAAu 4132 2775 AAGUGGU U CAAGCAU 4091 1745 AcaUGGU a CAAGCuU 4133 3533 UUCUCCU U AGGUGGG 4092 3296 UUuUCCU U AGGUGcu 4134 3534 UCUCCUU A GGUGGGU 4093 3297 UuUCCUU A GGUGcuU 4135 3625 GUACUCU A CUCCUGA 4094 4054 GagCUCU c CUCCUGu 4136 1814 AGCACCU U GGUUGUG 4095 1059 AGuACCU U GGUUacc 4137 2744 GGCAAAU C ACUUGGA 4096 147 uuCAAAU u ACUUGcA 4130 2783 CAAGCAU C AGCAUUU 4097 796 gAAGCAU C AGCAUaa 4138 3613 GAGAGCU C CUGAGUA 4098 2968 GgaAGCU C CUGAagA 4139 4052 AAGGCCU C GCUCAAG 4099 1923 ucuGCCU u GCUCAAG 4140 5305 UCUCCAU A UCAAAAC 4100 456 ggUCCAU u UCAAAuC 4141 7158 AUGUAUU U UGUAUAC 4101 631 gUcUAUU a UGUAcAu 4142 1836 CUAGAAU U UCUGGAA 4102 1007 aUgGAAU c UCUGGug 4143 2565 CUCUCUU C UGGCUCC 4103 2328 uguUCUU C UGGCUaC 4144 4250 CUGUACU C CACCCCA 4104 3388 uUaUACU a CACCagA 4145 7124 ACAUGGU U UGGUCCU 4105 3778 cagUGGU a UGGUuCU 4146 436 AUGGUCU U UGCCUGA 4106 1337 AcGGUCU a UGCCauu 4147 2234 GCACCAU A CCUCCUG 4107 1344 augCCAU u CCUCCcc 4148 2763 GGGCUUU U GGAAAAG 4108 990 uuGCUUU U GGAAguG 4149 4229 CCAGACU A CAACUCG 4109 767 auuGACU u CAACUgG 4150 5301 GUUUUCU C CAUAUCA 4110 3307 ugcUUCU C CAUAUCc 4151 6015 AGAAUGU A UGCCUCU 4111 1917 AcuAUGU c UGCCUug 4152 6095 AUUCCCU A GUGAGCC 4112 1438 AUaCCCU u GUGAaga 4153 6236 UGUUGUU C CUCUUCU 4113 76 UagUGUU u CUCUUga 4154 5962 GCUUCCU U UUAUCCA 4114 3099 auaUCCU c UUAUCgg 4155 7629 UAUAUAU U CUCUGCU 4115 3096 gAaAUAU c CUCUuaU 4156 Lowercase letters are used to represent sequence variance between fit-1 and KDR RNA 

1. An RNA molecule which specifically targets the cleavage of RNA encoding human fit-1 protein, wherein said RNA molecule is of length between about 14 and about 24 nucleotides and comprises sequence complementary to said fit-1 RNA or a portion thereof.
 2. The RNA molecule of claim 1, wherein said RNA molecule comprises sequence complementary to any substrate sequence found in Tables II, III, VIII or IX.
 3. The RNA molecule of claim 1, wherein said RNA molecule is single stranded.
 4. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more chemically modified nucleotides.
 5. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more nucleic acid backbone modifications.
 6. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more nucleic acid sugar modifications.
 7. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more nucleic acid base modifications.
 8. The RNA molecule of claim 1, wherein said RNA molecule is chemically synthesized.
 9. A composition comprising the RNA molecule of claim 1 and a pharmaceutically acceptable carrier or diluent.
 10. The RNA molecule of claim 6, wherein said nucleic acid sugar modification is 2′-O-methyl.
 11. The RNA molecule of claim 6, wherein said nucleic acid sugar modification is 2′-fluoro.
 12. The RNA molecule of claim 6, wherein said nucleic acid sugar modification is 2′-H. 